Data items in the ARRAY_DATA category are the containers for the array data items described in the category ARRAY_STRUCTURE. It is recognized that the data in this category needs to be used in two distinct ways. During a data collection the lack of ancillary data and timing constraints in processing data may dictate the need to make a 'miniCBF' nothing more than an essential minimum of information to record the results of the data collection. In that case it is proper to use the ARRAY_DATA category as a container for just a single image and a compacted, beam-line dependent list of data collection parameter values. In such a case, only the tags '_array_data.header_convention', '_array_data.header_contents' and '_array_data.data' need be populated. For full processing and archiving, most of the tags in this dictionary will need to be populated. Example 1 - This example shows two binary data blocks. The first one was compressed by the CBF_CANONICAL compression algorithm and is presented as hexadecimal data. The first character 'H' on the data lines means hexadecimal. It could have been 'O' for octal or 'D' for decimal. The second character on the line shows the number of bytes in each word (in this case '4'), which then requires eight hexadecimal digits per word. The third character gives the order of octets within a word, in this case '<' for the ordering 4321 (i.e. 'big-endian'). Alternatively, the character '>' could have been used for the ordering 1234 (i.e. 'little-endian'). The block has a 'message digest' to check the integrity of the data. The second block is similar, but uses CBF_PACKED compression and BASE64 encoding. Note that the size and the digest are different. <mmcif_img:array_dataCategory> <mmcif_img:array_data array_id="image_1" binary_id="1"> <mmcif_img:data> --CIF-BINARY-FORMAT-SECTION-- Content-Type: application/octet-stream; conversions=&quot;X-CBF_CANONICAL&quot; Content-Transfer-Encoding: X-BASE16 X-Binary-Size: 3927126 X-Binary-ID: 1 Content-MD5: u2sTJEovAHkmkDjPi+gWsg== # Hexadecimal encoding, byte 0, byte order ...21 # H4&lt; 0050B810 00000000 00000000 00000000 000F423F 00000000 00000000 ... .... --CIF-BINARY-FORMAT-SECTION----</mmcif_img:data> </mmcif_img:array_data> <mmcif_img:array_data array_id="image_2" binary_id="2"> <mmcif_img:data> --CIF-BINARY-FORMAT-SECTION-- Content-Type: application/octet-stream; conversions=&quot;X-CBF-PACKED&quot; Content-Transfer-Encoding: BASE64 X-Binary-Size: 3745758 X-Binary-ID: 2 Content-MD5: 1zsJjWPfol2GYl2V+QSXrw== ELhQAAAAAAAA... ... --CIF-BINARY-FORMAT-SECTION----</mmcif_img:data> </mmcif_img:array_data> </mmcif_img:array_dataCategory> Example 2 - This example shows a single image in a miniCBF, provided by E. Eikenberry. The entire CBF consists of one data block containing one category and three tags. The CBFlib program convert_miniCBF and a suitable template file can be used to convert this miniCBF to a full imgCIF file. The value of attribute data in category array_data contains the array data encapsulated in a STAR string. The representation used is a variant on the Multipurpose Internet Mail Extensions (MIME) specified in RFC 2045-2049 by N. Freed et al. The boundary delimiter used in writing an imgCIF or CBF is '\n--CIF-BINARY-FORMAT-SECTION--' (including the required initial '\n--'). The Content-Type may be any of the discrete types permitted in RFC 2045; 'application/octet-stream' is recommended for diffraction images in the ARRAY_DATA category. Note: When appropriate in other categories, e.g. for photographs of crystals, more precise types, such as 'image/jpeg', 'image/tiff', 'image/png', etc. should be used. If an octet stream was compressed, the compression should be specified by the parameter 'conversions="X-CBF_PACKED"' or the parameter 'conversions="X-CBF_CANONICAL"' or the parameter 'conversions="X-CBF_BYTE_OFFSET"' or the parameter 'conversions="X-CBF_BACKGROUND_OFFSET_DELTA"' If the parameter 'conversions="X-CBF_PACKED"' is given it may be further modified with the parameters '"uncorrelated_sections"' or '"flat"' If the '"uncorrelated_sections"' parameter is given, each section will be compressed without using the prior section for averaging. If the '"flat"' parameter is given, each the image will be treated as one long row. Note that the X-CBF_CANONICAL and X-CBF_PACKED are slower but more efficient compressions that the others. The X-CBF_BYTE_OFFSET compression is a good compromise between speed and efficiency for ordinary diffraction images. The X-CBF_BACKGROUND_OFFSET_DELTA compression is oriented towards sparse data, such as masks and tables of replacement pixel values for images with overloaded spots. The Content-Transfer-Encoding may be 'BASE64', 'Quoted-Printable', 'X-BASE8', 'X-BASE10', 'X-BASE16' or 'X-BASE32K', for an imgCIF or 'BINARY' for a CBF. The octal, decimal and hexadecimal transfer encodings are provided for convenience in debugging and are not recommended for archiving and data interchange. In a CIF, one of the parameters 'charset=us-ascii', 'charset=utf-8' or 'charset=utf-16' may be used on the Content-Transfer-Encoding to specify the character set used for the external presentation of the encoded data. If no charset parameter is given, the character set of the enclosing CIF is assumed. In any case, if a BOM flag is detected (FE FF for big-endian UTF-16, FF FE for little-endian UTF-16 or EF BB BF for UTF-8) is detected, the indicated charset will be assumed until the end of the encoded data or the detection of a different BOM. The charset of the Content-Transfer-Encoding is not the character set of the encoded data, only the character set of the presentation of the encoded data and should be respecified for each distinct STAR string. In an imgCIF file, the encoded binary data begins after the empty line terminating the header. In an imgCIF file, the encoded binary data ends with the terminating boundary delimiter '\n--CIF-BINARY-FORMAT-SECTION----' in the currently effective charset or with the '\n; ' that terminates the STAR string. In a CBF, the raw binary data begins after an empty line terminating the header and after the sequence: Octet Hex Decimal Purpose 0 0C 12 (ctrl-L) Page break 1 1A 26 (ctrl-Z) Stop listings in MS-DOS 2 04 04 (Ctrl-D) Stop listings in UNIX 3 D5 213 Binary section begins None of these octets are included in the calculation of the message size or in the calculation of the message digest. The X-Binary-Size header specifies the size of the equivalent binary data in octets. If compression was used, this size is the size after compression, including any book-keeping fields. An adjustment is made for the deprecated binary formats in which eight bytes of binary header are used for the compression type. In this case, the eight bytes used for the compression type are subtracted from the size, so that the same size will be reported if the compression type is supplied in the MIME header. Use of the MIME header is the recommended way to supply the compression type. In general, no portion of the binary header is included in the calculation of the size. The X-Binary-Element-Type header specifies the type of binary data in the octets, using the same descriptive phrases as in attribute encoding_type in category array_structure. The default value is 'unsigned 32-bit integer'. An MD5 message digest may, optionally, be used. The 'RSA Data Security, Inc. MD5 Message-Digest Algorithm' should be used. No portion of the header is included in the calculation of the message digest. If the Transfer Encoding is 'X-BASE8', 'X-BASE10' or 'X-BASE16', the data are presented as octal, decimal or hexadecimal data organized into lines or words. Each word is created by composing octets of data in fixed groups of 2, 3, 4, 6 or 8 octets, either in the order ...4321 ('big- endian') or 1234... ('little-endian'). If there are fewer than the specified number of octets to fill the last word, then the missing octets are presented as '==' for each missing octet. Exactly two equal signs are used for each missing octet even for octal and decimal encoding. The format of lines is: rnd xxxxxx xxxxxx xxxxxx where r is 'H', 'O' or 'D' for hexadecimal, octal or decimal, n is the number of octets per word and d is '<' or '>' for the '...4321' and '1234...' octet orderings, respectively. The '==' padding for the last word should be on the appropriate side to correspond to the missing octets, e.g. H4< FFFFFFFF FFFFFFFF 07FFFFFF ====0000 or H3> FF0700 00==== For these hexadecimal, octal and decimal formats only, comments beginning with '#' are permitted to improve readability. BASE64 encoding follows MIME conventions. Octets are in groups of three: c1, c2, c3. The resulting 24 bits are broken into four six-bit quantities, starting with the high-order six bits (c1 >> 2) of the first octet, then the low-order two bits of the first octet followed by the high-order four bits of the second octet [(c1 & 3)<<4 | (c2>>4)], then the bottom four bits of the second octet followed by the high-order two bits of the last octet [(c2 & 15)<<2 | (c3>>6)], then the bottom six bits of the last octet (c3 & 63). Each of these four quantities is translated into an ASCII character using the mapping: 1 2 3 4 5 6 0123456789012345678901234567890123456789012345678901234567890123 | | | | | | | ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/ With short groups of octets padded on the right with one '=' if c3 is missing, and with '==' if both c2 and c3 are missing. X-BASE32K encoding is similar to BASE64 encoding, except that sets of 15 octets are encoded as sets of 8 16-bit unicode characters, by breaking the 120 bits into 8 15-bit quantities. 256 is added to each 15 bit quantity to bring it into a printable uncode range. When encoding, zero padding is used to fill out the last 15 bit quantity. If 8 or more bits of padding are used, a single equals sign (hexadecimal 003D) is appended. Embedded whitespace and newlines are introduced to produce lines of no more than 80 characters each. On decoding, all printable ascii characters and ascii whitespace characters are ignored except for any trailing equals signs. The number of trailing equals signs indicated the number of trailing octets to be trimmed from the end of the decoded data. (see Georgi Darakev, Vassil Litchev, Kostadin Z. Mitev, Herbert J. Bernstein, 'Efficient Support of Binary Data in the XML Implementation of the NeXus File Format',absract W0165, ACA Summer Meeting, Honolulu, HI, July 2006). QUOTED-PRINTABLE encoding also follows MIME conventions, copying octets without translation if their ASCII values are 32...38, 42, 48...57, 59, 60, 62, 64...126 and the octet is not a ';' in column 1. All other characters are translated to =nn, where nn is the hexadecimal encoding of the octet. All lines are 'wrapped' with a terminating '=' (i.e. the MIME conventions for an implicit line terminator are never used). The "X-Binary-Element-Byte-Order" can specify either '"BIG_ENDIAN"' or '"LITTLE_ENDIAN"' byte order of the imaage data. Only LITTLE_ENDIAN is recommended. Processors may treat BIG_ENDIAN as a warning of data that can only be processed by special software. The "X-Binary-Number-of-Elements" specifies the number of elements (not the number of octets) in the decompressed, decoded image. The optional "X-Binary-Size-Fastest-Dimension" specifies the number of elements (not the number of octets) in one row of the fastest changing dimension of the binary data array. This information must be in the MIME header for proper operation of some of the decompression algorithms. The optional "X-Binary-Size-Second-Dimension" specifies the number of elements (not the number of octets) in one column of the second-fastest changing dimension of the binary data array. This information must be in the MIME header for proper operation of some of the decompression algorithms. The optional "X-Binary-Size-Third-Dimension" specifies the number of sections for the third-fastest changing dimension of the binary data array. The optional "X-Binary-Size-Padding" specifies the size in octets of an optional padding after the binary array data and before the closing flags for a binary section. This item is an text field for use in minimal CBF files to carry essential header information to be kept with image data in attribute data in category array_data when the tags that normally carry the structured metadata for the image have not been populated. Normally this data item should not appear when the full set of tags have been populated and attribute details in category diffrn_data_frame appears. This item is an identifier for the convention followed in constructing the contents of attribute header_contents in category array_data The permitted values are of the of an image creator identifier followed by an underscore and a version string. To avoid confusion about conventions, all creator identifiers should be registered with the IUCr and the conventions for all identifiers and versions should be posted on the MEDSBIO.org web site. This item is a pointer to attribute id in category array_structure in the ARRAY_STRUCTURE category. If not given, it defaults to 1. This item is an integer identifier which, along with attribute array_id in category array_data, should uniquely identify the particular block of array data. If attribute binary_id in category array_data is not explicitly given, it defaults to 1. The value of attribute binary_id in category array_data distinguishes among multiple sets of data with the same array structure. If the MIME header of the data array specifies a value for X-Binary-ID, the value of attribute binary_id in category array_data should be equal to the value given for X-Binary-ID. The value of attribute variant in category array_data gives the variant to which the given ARRAY_DATA row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the ARRAY_ELEMENT_SIZE category record the physical size of array elements along each array dimension. Example 1 - A regular 2D array with a uniform element dimension of 1220 nanometres. <mmcif_img:array_element_sizeCategory> <mmcif_img:array_element_size array_id="image_1" index="1"> <mmcif_img:size>0.00000122</mmcif_img:size> </mmcif_img:array_element_size> <mmcif_img:array_element_size array_id="image_1" index="2"> <mmcif_img:size>0.00000122</mmcif_img:size> </mmcif_img:array_element_size> </mmcif_img:array_element_sizeCategory> The size in metres of an image element in this dimension. This supposes that the elements are arranged on a regular grid. This item is a pointer to attribute id in category array_structure in the ARRAY_STRUCTURE category. This item is a pointer to attribute index in category array_structure_list in the ARRAY_STRUCTURE_LIST category. The value of attribute variant in category array_element_size gives the variant to which the given ARRAY_ELEMENT_SIZE row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the ARRAY_INTENSITIES category record the information required to recover the intensity data from the set of data values stored in the ARRAY_DATA category. The detector may have a complex relationship between the raw intensity values and the number of incident photons. In most cases, the number stored in the final array will have a simple linear relationship to the actual number of incident photons, given by attribute gain in category array_intensities. If raw, uncorrected values are presented (e.g. for calibration experiments), the value of attribute linearity in category array_intensities will be 'raw' and attribute gain in category array_intensities will not be used. Example 1 <mmcif_img:array_intensitiesCategory> <mmcif_img:array_intensities array_id="image_1"> <mmcif_img:gain>1.2</mmcif_img:gain> <mmcif_img:linearity>linear</mmcif_img:linearity> <mmcif_img:overload>655535</mmcif_img:overload> <mmcif_img:pixel_binning_method>hardware</mmcif_img:pixel_binning_method> <mmcif_img:pixel_fast_bin_size>2</mmcif_img:pixel_fast_bin_size> <mmcif_img:pixel_slow_bin_size>2</mmcif_img:pixel_slow_bin_size> <mmcif_img:undefined_value>0</mmcif_img:undefined_value> </mmcif_img:array_intensities> </mmcif_img:array_intensitiesCategory> A description of special aspects of the calculation of array intensities. Gain_setting: low gain (vrf = -0.300) Detector 'gain'. The factor by which linearized intensity count values should be divided to produce true photon counts. The estimated standard deviation in detector 'gain'. The intensity linearity scaling method used to convert from the raw intensity to the stored element value: 'linear' is linear. 'offset' means that the value defined by attribute offset in category array_intensities should be added to each element value. 'scaling' means that the value defined by attribute scaling in category array_intensities should be multiplied with each element value. 'scaling_offset' is the combination of the two previous cases, with the scale factor applied before the offset value. 'sqrt_scaled' means that the square root of raw intensities multiplied by attribute scaling in category array_intensities is calculated and stored, perhaps rounded to the nearest integer. Thus, linearization involves dividing the stored values by attribute scaling in category array_intensities and squaring the result. 'logarithmic_scaled' means that the logarithm base 10 of raw intensities multiplied by attribute scaling in category array_intensities is calculated and stored, perhaps rounded to the nearest integer. Thus, linearization involves dividing the stored values by attribute scaling in category array_intensities and calculating 10 to the power of this number. 'raw' means that the data are a set of raw values straight from the detector. Offset value to add to array element values in the manner described by the item attribute linearity in category array_intensities. The saturation intensity level for this data array. The value of attribute pixel_binning_method in category array_intensities specifies the method used to derive array elements from multiple pixels. The value of attribute pixel_fast_bin_size in category array_intensities specifies the number of pixels that compose one element in the direction of the most rapidly varying array dimension. Typical values are 1, 2, 4 or 8. When there is 1 pixel per array element in both directions, the value given for attribute pixel_binning_method in category array_intensities normally should be 'none'. It is specified as a float to allow for binning algorithms that create array elements that are not integer multiples of the detector pixel size. The value of attribute pixel_slow_bin_size in category array_intensities specifies the number of pixels that compose one element in the direction of the second most rapidly varying array dimension. Typical values are 1, 2, 4 or 8. When there is 1 pixel per array element in both directions, the value given for attribute pixel_binning_method in category array_intensities normally should be 'none'. It is specified as a float to allow for binning algorithms that create array elements that are not integer multiples of the detector pixel size. Multiplicative scaling value to be applied to array data in the manner described by item attribute linearity in category array_intensities. A value to be substituted for undefined values in the data array. This item is a pointer to attribute id in category array_structure in the ARRAY_STRUCTURE category. This item is a pointer to attribute binary_id in category array_data in the ARRAY_DATA category. The value of attribute variant in category array_intensities gives the variant to which the given ARRAY_INTENSITIES row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the ARRAY_STRUCTURE category record the organization and encoding of array data that may be stored in the ARRAY_DATA category. Example 1 - <mmcif_img:array_structureCategory> <mmcif_img:array_structure id="image_1"> <mmcif_img:byte_order>little_endian</mmcif_img:byte_order> <mmcif_img:compression_type>none</mmcif_img:compression_type> <mmcif_img:encoding_type>unsigned 16-bit integer</mmcif_img:encoding_type> </mmcif_img:array_structure> </mmcif_img:array_structureCategory> The order of bytes for integer values which require more than 1 byte. (IBM-PC's and compatibles and DEC VAXs use low-byte-first ordered integers, whereas Hewlett Packard 700 series, Sun-4 and Silicon Graphics use high-byte-first ordered integers. DEC Alphas can produce/use either depending on a compiler switch.) Type of data-compression method used to compress the array data. Flags modifying the type of data-compression method used to compress the arraydata. Data encoding of a single element of array data. The type 'unsigned 1-bit integer' is used for packed Booleans arrays for masks. Each element of the array corresponds to a single bit packed in unsigned 8-bit data. In several cases, the IEEE format is referenced. See IEEE Standard 754-1985 (IEEE, 1985). Ref: IEEE (1985). IEEE Standard for Binary Floating-Point Arithmetic. ANSI/IEEE Std 754-1985. New York: Institute of Electrical and Electronics Engineers. The value of attribute id in category array_structure must uniquely identify each item of array data. This item has been made implicit and given a default value of 1 as a convenience in writing miniCBF files. Normally an explicit name with useful content should be used. The value of attribute variant in category array_structure gives the variant to which the given ARRAY_STRUCTURE row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the ARRAY_STRUCTURE_LIST category record the size and organization of each array dimension. The relationship to physical axes may be given. Example 1 - An image array of 1300 x 1200 elements. The raster order of the image is left to right (increasing) in the first dimension and bottom to top (decreasing) in the second dimension. <mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list array_id="image_1" index="1"> <mmcif_img:axis_set_id>ELEMENT_X</mmcif_img:axis_set_id> <mmcif_img:dimension>1300</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>1</mmcif_img:precedence> </mmcif_img:array_structure_list> <mmcif_img:array_structure_list array_id="image_1" index="2"> <mmcif_img:axis_set_id>ELEMENY_Y</mmcif_img:axis_set_id> <mmcif_img:dimension>1200</mmcif_img:dimension> <mmcif_img:direction>decreasing</mmcif_img:direction> <mmcif_img:precedence>2</mmcif_img:precedence> </mmcif_img:array_structure_list> </mmcif_img:array_structure_listCategory> This is a descriptor for the physical axis or set of axes corresponding to an array index. This data item is related to the axes of the detector itself given in DIFFRN_DETECTOR_AXIS, but usually differs in that the axes in this category are the axes of the coordinate system of reported data points, while the axes in DIFFRN_DETECTOR_AXIS are the physical axes of the detector describing the 'poise' of the detector as an overall physical object. If there is only one axis in the set, the identifier of that axis should be used as the identifier of the set. The number of elements stored in the array structure in this dimension. Identifies the direction in which this array index changes. Identifies the rank order in which this array index changes with respect to other array indices. The precedence of 1 indicates the index which changes fastest. This item is a pointer to attribute id in category array_structure in the ARRAY_STRUCTURE category. Identifies the one-based index of the row or column in the array structure. The value of attribute variant in category array_structure_list gives the variant to which the given ARRAY_STRUCTURE_LIST row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the ARRAY_STRUCTURE_LIST_AXIS category describe the physical settings of sets of axes for the centres of pixels that correspond to data points described in the ARRAY_STRUCTURE_LIST category. In the simplest cases, the physical increments of a single axis correspond to the increments of a single array index. More complex organizations, e.g. spiral scans, may require coupled motions along multiple axes. Note that a spiral scan uses two coupled axes: one for the angular direction and one for the radial direction. This differs from a cylindrical scan for which the two axes are not coupled into one set. The setting of the specified axis in degrees for the first data point of the array index with the corresponding value of attribute axis_set_id in category array_structure_list. If the index is specified as 'increasing', this will be the centre of the pixel with index value 1. If the index is specified as 'decreasing', this will be the centre of the pixel with maximum index value. The pixel-centre-to-pixel-centre increment in the angular setting of the specified axis in degrees. This is not meaningful in the case of 'constant velocity' spiral scans and should not be specified for this case. See attribute angular_pitch. in category array_structure_list_axis The pixel-centre-to-pixel-centre distance for a one-step change in the setting of the specified axis in millimetres. This is meaningful only for 'constant velocity' spiral scans or for uncoupled angular scans at a constant radius (cylindrical scans) and should not be specified for cases in which the angle between pixels (rather than the distance between pixels) is uniform. See attribute angle_increment in category array_structure_list_axis. The setting of the specified axis in millimetres for the first data point of the array index with the corresponding value of attribute axis_set_id in category array_structure_list. If the index is specified as 'increasing', this will be the centre of the pixel with index value 1. If the index is specified as 'decreasing', this will be the centre of the pixel with maximum index value. The pixel-centre-to-pixel-centre increment for the displacement setting of the specified axis in millimetres. The setting of the specified axis as a decimal fraction of the axis unit vector for the first data point of the array index with the corresponding value of attribute axis_set_id in category array_structure_list. If the index is specified as 'increasing', this will be the centre of the pixel with index value 1. If the index is specified as 'decreasing', this will be the centre of the pixel with maximum index value. The pixel-centre-to-pixel-centre increment for the displacement setting of the specified axis as a decimal fraction of the axis unit vector. The radial distance from one 'cylinder' of pixels to the next in millimetres. If the scan is a 'constant velocity' scan with differing angular displacements between pixels, the value of this item may differ significantly from the value of attribute displacement_increment in category array_structure_list_axis. The value of attribute reference_angle in category array_structure_list_axis specifies the setting of the angle of this axis used for determining a reference beam center and a reference detector distance. It is normally expected to be identical to the value of attribute angle. in category array_structure_list_axis The value of attribute reference_displacement in category array_structure_list_axis specifies the setting of the displacement of this axis used for determining a reference beam center and a reference detector distance. It is normally expected to be identical to the value of attribute displacement. in category array_structure_list_axis The value of this data item is the identifier of one of the axes in the set of axes for which settings are being specified. Multiple axes may be specified for the same value of attribute axis_set_id. in category array_structure_list_axis This item is a pointer to attribute id in category axis in the AXIS category. The value of this data item is the identifier of the set of axes for which axis settings are being specified. Multiple axes may be specified for the same value of attribute axis_set_id. in category array_structure_list_axis This item is a pointer to attribute axis_set_id in category array_structure_list in the ARRAY_STRUCTURE_LIST category. If this item is not specified, it defaults to the corresponding axis identifier. The value of attribute variant in category array_structure_list_axis gives the variant to which the given ARRAY_STRUCTURE_LIST_AXIS row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the ARRAY_STRUCTURE_LIST_SECTION category identify the dimension-by-dimension start, end and stride of each section of an array that is to be referenced. For any array of array_id, ARRAYID, array section ids of the form ARRAYID(start1:end1:stride1,start2:end2:stride2, ...) are defined by default. For the given index, the elements in the section are of indices: attribute start, in category array_structure_list_section attribute start in category array_structure_list_section +_array_structure_list_section.stride, attribute start in category array_structure_list_section +2*_array_structure_list_section.stride, ... stopping either when the indices leave the limits of the indices of that dimension or [min(_array_structure_list_section.start, attribute end), in category array_structure_list_section max(_array_structure_list_section.start, attribute end)]. in category array_structure_list_section The ordering of these elements is determined by the overall ordering of attribute array_id in category array_structure_list_section and not by the ordering implied by the stride. Example 1 - An image array, myarry, of 1300 x 1200 elements, 700 frames is defined in ARRAY_STRUCTURE_LIST, and the array section identifier "myarray(101:1200,101:1100,1:700:10)" is explicitly defined taking every 10th frame and removing a 100 pixel border. Note that even though the slow index high is 700, the last frame that will actually be included in only 691. <mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list array_id="myarray" index="1"> <mmcif_img:axis_set_id>ELEMENT_X</mmcif_img:axis_set_id> <mmcif_img:dimension>1300</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>1</mmcif_img:precedence> </mmcif_img:array_structure_list> <mmcif_img:array_structure_list array_id="myarray" index="2"> <mmcif_img:axis_set_id>ELEMENT_Y</mmcif_img:axis_set_id> <mmcif_img:dimension>1200</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>2</mmcif_img:precedence> </mmcif_img:array_structure_list> <mmcif_img:array_structure_list array_id="myarray" index="3"> <mmcif_img:axis_set_id>FRAME_NO</mmcif_img:axis_set_id> <mmcif_img:dimension>700</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>3</mmcif_img:precedence> </mmcif_img:array_structure_list> </mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list_sectionCategory> <mmcif_img:array_structure_list_section array_id="myarray" id="myarray(101:1200,101:1100,1:700:10)" index="1"> <mmcif_img:end>1200</mmcif_img:end> <mmcif_img:start>101</mmcif_img:start> <mmcif_img:stride xsi:nil="true" /> </mmcif_img:array_structure_list_section> <mmcif_img:array_structure_list_section array_id="myarray" id="myarray(101:1200,101:1100,1:700:10)" index="2"> <mmcif_img:end>1100</mmcif_img:end> <mmcif_img:start>101</mmcif_img:start> <mmcif_img:stride xsi:nil="true" /> </mmcif_img:array_structure_list_section> <mmcif_img:array_structure_list_section array_id="myarray" id="myarray(101:1200,101:1100,1:700:10)" index="3"> <mmcif_img:end>700</mmcif_img:end> <mmcif_img:start>1</mmcif_img:start> <mmcif_img:stride>10</mmcif_img:stride> </mmcif_img:array_structure_list_section> </mmcif_img:array_structure_list_sectionCategory> Identifies the ending ordinal, numbered from 1, for an array element of index attribute index in category array_structure_list_section in the section. The value defaults to the dimension for index attribute index in category array_structure_list_section of the array. Note that this agrees with the Fortran convention, rather than the Python convention in that, if compatible with the stride, the end element is included in the section as in Fortran, rather than being one beyond the section as in Python. Identifies the starting ordinal, numbered from 1, for an array element of index attribute index in category array_structure_list_section in the section. The value defaults to 1. For the given index, the elements in the section are of indices: attribute start, in category array_structure_list_section attribute start in category array_structure_list_section +_array_structure_list_section.stride, attribute start in category array_structure_list_section +2*_array_structure_list_section.stride, ... stopping either when the indices leave the limits of the indices of that dimension or [min(_array_structure_list_section.start, attribute end), in category array_structure_list_section max(_array_structure_list_section.start, attribute end)]. in category array_structure_list_section The ordering of these elements is determined by the overall ordering of attribute array_id in category array_structure_list_section and not by the ordering implied by the stride. Identifies the incremental steps to be taken when moving element to element in the section in that particular dimension. The value of attribute stride in category array_structure_list_section may be positive or negative. If the stride is zero, the section is just defined by attribute start in category array_structure_list_section. This item is a pointer to attribute id in category array_structure in the ARRAY_STRUCTURE category. Uniquely identifies the array section chosen. To avoid confusion array section IDs that contain parentheses should conform to the default syntax ARRAYID(start1:end1:stride1,start2:end2:stride2, ...) This item is a pointer to attribute index in category array_structure_list in the ARRAY_STRUCTURE_LIST category. Identifies the one-based index of the row, column, sheet ... the ARRAY_STRUCTURE_LIST category. For a multidimensional array, a value must be explicitly given. If an index is omitted from section then all elements for that index are assumed to be included in the section. The value of attribute variant in category array_structure_list_section gives the variant to which the given ARRAY_STRUCTURE_LIST_SECTION row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the AXIS category record the information required to describe the various goniometer, detector, source and other axes needed to specify a data collection or the axes defining the coordinate system of an image. The location of each axis is specified by two vectors: the axis itself, given by a unit vector in the direction of the axis, and an offset to the base of the unit vector. The vectors defining an axis are referenced to an appropriate coordinate system. The axis vector, itself, is a dimensionless unit vector. Where meaningful, the offset vector is given in millimetres. In coordinate systems not measured in metres, the offset is not specified and is taken as zero. The available coordinate systems are: The imgCIF standard laboratory coordinate system The direct lattice (fractional atomic coordinates) The orthogonal Cartesian coordinate system (real space) The reciprocal lattice An abstract orthogonal Cartesian coordinate frame For consistency in this discussion, we call the three coordinate system axes X, Y and Z. This is appropriate for the imgCIF standard laboratory coordinate system, and last two Cartesian coordinate systems, but for the direct lattice, X corresponds to a, Y to b and Z to c, while for the reciprocal lattice, X corresponds to a*, Y to b* and Z to c*. For purposes of visualization, all the coordinate systems are taken as right-handed, i.e., using the convention that the extended thumb of a right hand could point along the first (X) axis, the straightened pointer finger could point along the second (Y) axis and the middle finger folded inward could point along the third (Z) axis. THE IMGCIF STANDARD LABORATORY COORDINATE SYSTEM The imgCIF standard laboratory coordinate system is a right-handed orthogonal coordinate similar to the MOSFLM coordinate system, but imgCIF puts Z along the X-ray beam, rather than putting X along the X-ray beam as in MOSFLM. The vectors for the imgCIF standard laboratory coordinate system form a right-handed Cartesian coordinate system with its origin in the sample or specimen. The origin of the axis system should, if possible, be defined in terms of mechanically stable axes to be be both in the sample and in the beam. If the sample goniometer or other sample positioner has two axes the intersection of which defines a unique point at which the sample should be mounted to be bathed by the beam, that will be the origin of the axis system. If no such point is defined, then the midpoint of the line of intersection between the sample and the center of the beam will define the origin. For this definition the sample positioning system will be set at its initial reference position for the experiment. | Y (to complete right-handed system) | | | | | |________________X / principal goniometer axis / / / / /Z (to source) Axis 1 (X): The X-axis is aligned to the mechanical axis pointing from the sample or specimen along the principal axis of the goniometer or sample positioning system if the sample positioning system has an axis that intersects the origin and which form an angle of more than 22.5 degrees with the beam axis. Axis 2 (Y): The Y-axis completes an orthogonal right-handed system defined by the X-axis and the Z-axis (see below). Axis 3 (Z): The Z-axis is derived from the source axis which goes from the sample to the source. The Z-axis is the component of the source axis in the direction of the source orthogonal to the X-axis in the plane defined by the X-axis and the source axis. If the conditions for the X-axis can be met, the coordinate system will be based on the goniometer or other sample positioning system and the beam and not on the orientation of the detector, gravity etc. The vectors necessary to specify all other axes are given by sets of three components in the order (X, Y, Z). If the axis involved is a rotation axis, it is right-handed, i.e. as one views the object to be rotated from the origin (the tail) of the unit vector, the rotation is clockwise. If a translation axis is specified, the direction of the unit vector specifies the sense of positive translation. Note: This choice of coordinate system is similar to but significantly different from the choice in MOSFLM (Leslie & Powell, 2004). In MOSFLM, X is along the X-ray beam (the CBF/imgCIF Z axis) and Z is along the rotation axis. In some experimental techniques, there is no goniometer or the principal axis of the goniometer is at a small acute angle with respect to the source axis. In such cases, other reference axes are needed to define a useful coordinate system. The order of priority in defining directions in such cases is to use the detector, then gravity, then north. If the X-axis cannot be defined as above, then the direction (not the origin) of the X-axis should be parallel to the axis of the primary detector element corresponding to the most rapidly varying dimension of that detector element's data array, with its positive sense corresponding to increasing values of the index for that dimension. If the detector is such that such a direction cannot be defined (as with a point detector) or that direction forms an angle of less than 22.5 degrees with respect to the source axis, then the X-axis should be chosen so that if the Y-axis is chosen in the direction of gravity, and the Z-axis is chosen to be along the source axis, a right-handed orthogonal coordinate system is chosen. In the case of a vertical source axis, as a last resort, the X-axis should be chosen to point North. All rotations are given in degrees and all translations are given in mm. Axes may be dependent on one another. The X-axis is the only goniometer axis the direction of which is strictly connected to the hardware. All other axes are specified by the positions they would assume when the axes upon which they depend are at their zero points. When specifying detector axes, the axis is given to the beam centre. The location of the beam centre on the detector should be given in the DIFFRN_DETECTOR category in distortion-corrected millimetres from the (0,0) corner of the detector. For convenience when describing detector element (module) placement, and optional mounting rotation axis and rotation angle may be specified. In such cases, the mounting rotation axis and angle of rotation around the mounting rotation axis are applied after applying the transformations upon which the given axis depends. It should be noted that many different origins arise in the definition of an experiment. In particular, as noted above, it is necessary to specify the location of the beam centre on the detector in terms of the origin of the detector, which is, of course, not coincident with the centre of the sample. The unit cell, reciprocal cell and crystallographic orthogonal Cartesian coordinate system are defined by the CELL and the matrices in the ATOM_SITES category. THE DIRECT LATTICE (FRACTIONAL COORDINATES) The direct lattice coordinate system is a system of fractional coordinates aligned to the crystal, rather than to the laboratory. This is a natural coordinate system for maps and atomic coordinates. It is the simplest coordinate system in which to apply symmetry. The axes are determined by the cell edges, and are not necessarily othogonal. This coordinate system is not uniquely defined and depends on the cell parameters in the CELL category and the settings chosen to index the crystal. Molecules in a crystal studied by X-ray diffracraction are organized into a repeating regular array of unit cells. Each unit cell is defined by three vectors, a, b and c. To quote from Drenth, "The choice of the unit cell is not unique and therefore, guidelines have been established for selecting the standard basis vectors and the origin. They are based on symmetry and metric considerations: "(1) The axial system should be right handed. (2) The basis vectors should coincide as much as possible with directions of highest symmetry." (3) The cell taken should be the smallest one that satisfies condition (2) (4) Of all the lattice vectors, none is shorter than a. (5) Of those not directed along a, none is shorter than b. (6) Of those not lying in the ab plane, none is shorter than c. (7) The three angles between the basis vectors a, b and c are either all acute (<90\%) or all obtuse (>=90\%)." These rules do not produce a unique result that is stable under the assumption of experimental errors, and the the resulting cell may not be primitive. In this coordinate system, the vector (.5, .5, .5) is in the middle of the given unit cell. Grid coordinates are an important variation on fractional coordinates used when working with maps. In imgCIF, the conversion from fractional to grid coordinates is implicit in the array indexing specified by attribute dimension in category array_structure_list. Note that this implicit grid-coordinate scheme is 1-based, not zero-based, i.e. the origin of the cell for axes along the cell edges with no specified attribute displacement in category array_structure_list_axis will have grid coordinates of (1,1,1), i.e. array indices of (1,1,1). THE ORTHOGONAL CARTESIAN COORDINATE SYSTEM (REAL SPACE) The orthogonal Cartesian coordinate system is a transformation of the direct lattice to the actual physical coordinates of atoms in space. It is similar to the laboratory coordinate system, but is anchored to and moves with the crystal, rather than being schored to the laboratory. The transformation from fractional to orthogonal cartesian coordinates is given by the attribute Cartn_transf_matrix[i][j] in category atom_sites and attribute Cartn_transf_vector[i] in category atom_sites tags. A common choice for the matrix of the transformation is given in the 1992 PDB format document | a b cos(\g) c cos(\b) | | 0 b sin(\g) c (cos(\a) - cos(\b)cos(\g))/sin(\g) | | 0 0 V/(a b sin(\g)) | This is a convenient coordinate system in which to do fitting of models to maps and in which to understand the chemistry of a molecule. THE RECIPROCAL LATTICE The reciprocal lattice coordinate system is used for diffraction intensitities. It is based on the reciprocal cell, the dual of the cell, in which reciprocal cell edges are derived from direct cell faces: a* = bc sin(\a)/V b* = ac sin(\b)/V c* = ab sin(\g)/V cos(\a*) = (cos(\b) cos(\g) - cos(\a))/(sin(\b) sin(\g)) cos(\b*) = (cos(\a) cos(\g) - cos(\b))/(sin(\a) sin(\g)) cos(\g*) = (cos(\a) cos(\b) - cos(\g))/(sin(\a) sin(\b)) V = abc SQRT(1 - cos(\a)^2^ - cos(\b)^2^ - cos(\g)^2^ + 2 cos(\a) cos(\b) cos(\g) ) In this form the dimensions of the reciprocal lattice are in reciprocal \%Angstroms (\%A^-1^). A dimensionless form can be obtained by multiplying by the wavelength. Reflections are commonly indexed against this coordinate system as (h, k, l) triples. References: Drenth, J., "Introduction to basic crystallography." chapter 2.1 in Rossmann, M. G. and Arnold, E. "Crystallography of biological macromolecules", Volume F of the IUCr's "International tables for crystallography", Kluwer, Dordrecht 2001, pp 44 -- 63 Leslie, A. G. W. and Powell, H. (2004). MOSFLM v6.11. MRC Laboratory of Molecular Biology, Hills Road, Cambridge, England. http://www.CCP4.ac.uk/dist/X-windows/Mosflm/. Stout, G. H. and Jensen, L. H., "X-ray structure determination", 2nd ed., Wiley, New York, 1989, 453 pp. __, "PROTEIN DATA BANK ATOMIC COORDINATE AND BIBLIOGRAPHIC ENTRY FORMAT DESCRIPTION," Brookhaven National Laboratory, February 1992. Example 1 - This example shows the axis specification of the axes of a kappa- geometry goniometer [see Stout, G. H. & Jensen, L. H. (1989). X-ray structure determination. A practical guide, 2nd ed. p. 134. New York: Wiley Interscience]. There are three axes specified, and no offsets. The outermost axis, omega, is pointed along the X axis. The next innermost axis, kappa, is at a 50 degree angle to the X axis, pointed away from the source. The innermost axis, phi, aligns with the X axis when omega and phi are at their zero points. If T-omega, T-kappa and T-phi are the transformation matrices derived from the axis settings, the complete transformation would be: X' = (T-omega) (T-kappa) (T-phi) X <mmcif_img:axisCategory> <mmcif_img:axis equipment="goniometer" id="omega"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="goniometer" id="kappa"> <mmcif_img:depends_on>omega</mmcif_img:depends_on> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-.64279</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>-.76604</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="goniometer" id="phi"> <mmcif_img:depends_on>kappa</mmcif_img:depends_on> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> </mmcif_img:axisCategory> Example 2 - This example shows the axis specification of the axes of a detector, source and gravity. The order has been changed as a reminder that the ordering of presentation of tokens is not significant. The centre of rotation of the detector has been taken to be 68 millimetres in the direction away from the source. <mmcif_img:axisCategory> <mmcif_img:axis equipment="source" id="source"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type xsi:nil="true" /> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="gravity" id="gravity"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type xsi:nil="true" /> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="tranz"> <mmcif_img:depends_on>rotz</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>-68</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="twotheta"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="roty"> <mmcif_img:depends_on>twotheta</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>-68</mmcif_img:offset3> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="rotz"> <mmcif_img:depends_on>roty</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>-68</mmcif_img:offset3> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> </mmcif_img:axisCategory> Example 3 - This example show the axis specification of the axes for a map, using fractional coordinates. Each cell edge has been divided into a grid of 50 divisions in the ARRAY_STRUCTURE_LIST_AXIS category. The map is using only the first octant of the grid in the ARRAY_STRUCTURE_LIST category. The fastest changing axis is the gris along A, then along B, and the slowest is along C. The map sampling is being done in the middle of each grid division <mmcif_img:axisCategory> <mmcif_img:axis id="CELL_A_AXIS"> <mmcif_img:system>fractional</mmcif_img:system> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis id="CELL_B_AXIS"> <mmcif_img:system>fractional</mmcif_img:system> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis id="CELL_C_AXIS"> <mmcif_img:system>fractional</mmcif_img:system> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> </mmcif_img:axisCategory> <mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list array_id="map" index="1"> <mmcif_img:axis_set_id>CELL_A_AXIS</mmcif_img:axis_set_id> <mmcif_img:dimension>25</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>1</mmcif_img:precedence> </mmcif_img:array_structure_list> <mmcif_img:array_structure_list array_id="map" index="1"> <mmcif_img:axis_set_id>CELL_B_AXIS</mmcif_img:axis_set_id> <mmcif_img:dimension>25</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>2</mmcif_img:precedence> </mmcif_img:array_structure_list> <mmcif_img:array_structure_list array_id="map" index="1"> <mmcif_img:axis_set_id>CELL_C_AXIS</mmcif_img:axis_set_id> <mmcif_img:dimension>25</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>3</mmcif_img:precedence> </mmcif_img:array_structure_list> </mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list_axisCategory> <mmcif_img:array_structure_list_axis axis_id="CELL_A_AXIS"> <mmcif_img:fract_displacement>0.01</mmcif_img:fract_displacement> <mmcif_img:fract_displacement_increment>0.02</mmcif_img:fract_displacement_increment> </mmcif_img:array_structure_list_axis> <mmcif_img:array_structure_list_axis axis_id="CELL_B_AXIS"> <mmcif_img:fract_displacement>0.01</mmcif_img:fract_displacement> <mmcif_img:fract_displacement_increment>0.02</mmcif_img:fract_displacement_increment> </mmcif_img:array_structure_list_axis> <mmcif_img:array_structure_list_axis axis_id="CELL_C_AXIS"> <mmcif_img:fract_displacement>0.01</mmcif_img:fract_displacement> <mmcif_img:fract_displacement_increment>0.02</mmcif_img:fract_displacement_increment> </mmcif_img:array_structure_list_axis> </mmcif_img:array_structure_list_axisCategory> Example 4 - This example show the axis specification of the axes for a map, this time as orthogonal \%Angstroms, using the same coordinate system as for the atomic coordinates. The map is sampling every 1.5 \%Angstroms (1.5e-7 millimeters) in a map segment 37.5 \%Angstroms on a side. <mmcif_img:axisCategory> <mmcif_img:axis id="X"> <mmcif_img:system>orthogonal</mmcif_img:system> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis id="Y"> <mmcif_img:system>orthogonal</mmcif_img:system> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis id="Z"> <mmcif_img:system>orthogonal</mmcif_img:system> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> </mmcif_img:axisCategory> <mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list array_id="map" index="1"> <mmcif_img:axis_set_id>X</mmcif_img:axis_set_id> <mmcif_img:dimension>25</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>1</mmcif_img:precedence> </mmcif_img:array_structure_list> <mmcif_img:array_structure_list array_id="map" index="2"> <mmcif_img:axis_set_id>Y</mmcif_img:axis_set_id> <mmcif_img:dimension>25</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>2</mmcif_img:precedence> </mmcif_img:array_structure_list> <mmcif_img:array_structure_list array_id="map" index="3"> <mmcif_img:axis_set_id>Z</mmcif_img:axis_set_id> <mmcif_img:dimension>25</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>3</mmcif_img:precedence> </mmcif_img:array_structure_list> </mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list_axisCategory> <mmcif_img:array_structure_list_axis axis_id="X"> <mmcif_img:displacement>0.000000075</mmcif_img:displacement> <mmcif_img:displacement_increment>0.00000015</mmcif_img:displacement_increment> </mmcif_img:array_structure_list_axis> <mmcif_img:array_structure_list_axis axis_id="Y"> <mmcif_img:displacement>0.000000075</mmcif_img:displacement> <mmcif_img:displacement_increment>0.00000015</mmcif_img:displacement_increment> </mmcif_img:array_structure_list_axis> <mmcif_img:array_structure_list_axis axis_id="Z"> <mmcif_img:displacement>0.000000075</mmcif_img:displacement> <mmcif_img:displacement_increment>0.00000015</mmcif_img:displacement_increment> </mmcif_img:array_structure_list_axis> </mmcif_img:array_structure_list_axisCategory> Example 5 - This example show an excerpt from the axis specification of an FEL detector provided by N. Sauter and A. Brewster. The detector is divided into 4 quadrants, each quadrant contains 8 sensors and each sensor contains 2 ASICs. We want to be able to refine the placement of each of these elements, so we maintain the set of vectors that places them. <mmcif_img:diffrn_detector_axisCategory> <mmcif_img:diffrn_detector_axis axis_id="AXIS_D0_X" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="AXIS_D0_Y" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="AXIS_D0_Z" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="AXIS_D0_R" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S0A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S0A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S1A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S1A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S2" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S2A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S2A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S3" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S3A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S3A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S4" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S4A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S4A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S5" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S5A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S5A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S6" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S6A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S6A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S7" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S7A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q0S7A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S0A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S0A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S1A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S1A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S2" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S2A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S2A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S3" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S3A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S3A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S4" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S4A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S4A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S5" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S5A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S5A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S6" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S6A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S6A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S7" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S7A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q1S7A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S0A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S0A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S1A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S1A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S2" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S2A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S2A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S3" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S3A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S3A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S4" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S4A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S4A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S5" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S5A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S5A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S6" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S6A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S6A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S7" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S7A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q2S7A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S0A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S0A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S1A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S1A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S2" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S2A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S2A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S3" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S3A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S3A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S4" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S4A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S4A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S5" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S5A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S5A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S6" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S6A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S6A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S7" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S7A0" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="FS_D0Q3S7A1" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> </mmcif_img:diffrn_detector_axisCategory> <mmcif_img:diffrn_detector_elementCategory> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S0A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S0A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S1A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S1A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S2A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S2A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S3A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S3A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S4A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S4A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S5A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S5A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S6A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S6A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S7A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S7A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S0A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S0A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S1A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S1A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S2A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S2A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S3A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S3A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S4A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S4A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S5A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S5A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S6A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S6A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S7A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S7A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S0A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S0A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S1A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S1A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S2A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S2A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S3A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S3A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S4A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S4A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S5A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S5A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S6A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S6A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S7A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S7A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S0A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S0A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S1A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S1A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S2A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S2A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S3A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S3A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S4A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S4A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S5A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S5A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S6A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S6A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S7A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S7A1"> </mmcif_img:diffrn_detector_element> </mmcif_img:diffrn_detector_elementCategory> <mmcif_img:axisCategory> <mmcif_img:axis equipment="source" id="AXIS_SOURCE"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:equipment_component xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>general</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="gravity" id="AXIS_GRAVITY"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:equipment_component xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>general</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0_Z"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:equipment_component>detector_arm</mmcif_img:equipment_component> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0_Y"> <mmcif_img:depends_on>AXIS_D0_Z</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_arm</mmcif_img:equipment_component> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0_X"> <mmcif_img:depends_on>AXIS_D0_Y</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_arm</mmcif_img:equipment_component> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0_R"> <mmcif_img:depends_on>AXIS_D0_X</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_arm</mmcif_img:equipment_component> <mmcif_img:offset1>0.0</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0"> <mmcif_img:depends_on>AXIS_D0_R</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_quadrant</mmcif_img:equipment_component> <mmcif_img:offset1>-49.860765625</mmcif_img:offset1> <mmcif_img:offset2>41.643353125</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S0"> <mmcif_img:depends_on>FS_D0Q0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>11.3696</mmcif_img:offset1> <mmcif_img:offset2>-23.189925</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S0A0"> <mmcif_img:depends_on>FS_D0Q0S0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>89.66181</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S0</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A0_F"> <mmcif_img:depends_on>FS_D0Q0S0A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S0A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S0A1"> <mmcif_img:depends_on>FS_D0Q0S0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>89.66181</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S0</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A1_F"> <mmcif_img:depends_on>FS_D0Q0S0A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S0A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S1"> <mmcif_img:depends_on>FS_D0Q0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>34.815</mmcif_img:offset1> <mmcif_img:offset2>-23.309825</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S1A0"> <mmcif_img:depends_on>FS_D0Q0S1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>90.00132</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S1</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A0_F"> <mmcif_img:depends_on>FS_D0Q0S1A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S1A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S1A1"> <mmcif_img:depends_on>FS_D0Q0S1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>90.00132</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S1</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A1_F"> <mmcif_img:depends_on>FS_D0Q0S1A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S1A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S2"> <mmcif_img:depends_on>FS_D0Q0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-23.5389</mmcif_img:offset1> <mmcif_img:offset2>-10.921625</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S2A0"> <mmcif_img:depends_on>FS_D0Q0S2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.68548</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S2</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A0_F"> <mmcif_img:depends_on>FS_D0Q0S2A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S2A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S2A1"> <mmcif_img:depends_on>FS_D0Q0S2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.68548</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S2</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A1_F"> <mmcif_img:depends_on>FS_D0Q0S2A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S2A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S3"> <mmcif_img:depends_on>FS_D0Q0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-23.5499</mmcif_img:offset1> <mmcif_img:offset2>-34.181125</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S3A0"> <mmcif_img:depends_on>FS_D0Q0S3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.96513</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S3</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A0_F"> <mmcif_img:depends_on>FS_D0Q0S3A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S3A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S3A1"> <mmcif_img:depends_on>FS_D0Q0S3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.96513</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S3</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A1_F"> <mmcif_img:depends_on>FS_D0Q0S3A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S3A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S4"> <mmcif_img:depends_on>FS_D0Q0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-11.2651</mmcif_img:offset1> <mmcif_img:offset2>24.282775</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S4A0"> <mmcif_img:depends_on>FS_D0Q0S4</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.14738</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S4</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A0_F"> <mmcif_img:depends_on>FS_D0Q0S4A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S4A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S4A1"> <mmcif_img:depends_on>FS_D0Q0S4</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.14738</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S4</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A1_F"> <mmcif_img:depends_on>FS_D0Q0S4A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S4A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S5"> <mmcif_img:depends_on>FS_D0Q0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-34.7336</mmcif_img:offset1> <mmcif_img:offset2>24.169475</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S5A0"> <mmcif_img:depends_on>FS_D0Q0S5</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.07896</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S5</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A0_F"> <mmcif_img:depends_on>FS_D0Q0S5A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S5A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S5A1"> <mmcif_img:depends_on>FS_D0Q0S5</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.07896</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S5</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A1_F"> <mmcif_img:depends_on>FS_D0Q0S5A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S5A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S6"> <mmcif_img:depends_on>FS_D0Q0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>23.5488</mmcif_img:offset1> <mmcif_img:offset2>33.320375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S6A0"> <mmcif_img:depends_on>FS_D0Q0S6</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.78222</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S6</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A0_F"> <mmcif_img:depends_on>FS_D0Q0S6A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S6A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S6A1"> <mmcif_img:depends_on>FS_D0Q0S6</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.78222</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S6</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A1_F"> <mmcif_img:depends_on>FS_D0Q0S6A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S6A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S7"> <mmcif_img:depends_on>FS_D0Q0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>23.3541</mmcif_img:offset1> <mmcif_img:offset2>9.829875</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S7A0"> <mmcif_img:depends_on>FS_D0Q0S7</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.89604</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S7</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A0_F"> <mmcif_img:depends_on>FS_D0Q0S7A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S7A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q0S7A1"> <mmcif_img:depends_on>FS_D0Q0S7</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.89604</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q0S7</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A1_F"> <mmcif_img:depends_on>FS_D0Q0S7A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S7A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1"> <mmcif_img:depends_on>AXIS_D0_R</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_quadrant</mmcif_img:equipment_component> <mmcif_img:offset1>41.512521875</mmcif_img:offset1> <mmcif_img:offset2>50.149653125</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S0"> <mmcif_img:depends_on>FS_D0Q1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-23.1589875</mmcif_img:offset1> <mmcif_img:offset2>-11.451825</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S0A0"> <mmcif_img:depends_on>FS_D0Q1S0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.27238</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S0</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A0_F"> <mmcif_img:depends_on>FS_D0Q1S0A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S0A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S0A1"> <mmcif_img:depends_on>FS_D0Q1S0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.27238</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S0</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A1_F"> <mmcif_img:depends_on>FS_D0Q1S0A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S0A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S1"> <mmcif_img:depends_on>FS_D0Q1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-23.2073875</mmcif_img:offset1> <mmcif_img:offset2>-34.782825</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S1A0"> <mmcif_img:depends_on>FS_D0Q1S1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.00525999986641</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S1</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A0_F"> <mmcif_img:depends_on>FS_D0Q1S1A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S1A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S1A1"> <mmcif_img:depends_on>FS_D0Q1S1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.00525999986641</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S1</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A1_F"> <mmcif_img:depends_on>FS_D0Q1S1A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S1A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S2"> <mmcif_img:depends_on>FS_D0Q1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-10.7311875</mmcif_img:offset1> <mmcif_img:offset2>23.286175</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S2A0"> <mmcif_img:depends_on>FS_D0Q1S2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.02545</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S2</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A0_F"> <mmcif_img:depends_on>FS_D0Q1S2A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S2A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S2A1"> <mmcif_img:depends_on>FS_D0Q1S2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.02545</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S2</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A1_F"> <mmcif_img:depends_on>FS_D0Q1S2A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S2A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S3"> <mmcif_img:depends_on>FS_D0Q1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-34.1402875</mmcif_img:offset1> <mmcif_img:offset2>23.344475</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S3A0"> <mmcif_img:depends_on>FS_D0Q1S3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.03066</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S3</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A0_F"> <mmcif_img:depends_on>FS_D0Q1S3A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S3A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S3A1"> <mmcif_img:depends_on>FS_D0Q1S3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.03066</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S3</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A1_F"> <mmcif_img:depends_on>FS_D0Q1S3A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S3A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S4"> <mmcif_img:depends_on>FS_D0Q1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>24.0035125</mmcif_img:offset1> <mmcif_img:offset2>11.407275</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S4A0"> <mmcif_img:depends_on>FS_D0Q1S4</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>179.96381</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S4</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A0_F"> <mmcif_img:depends_on>FS_D0Q1S4A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S4A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S4A1"> <mmcif_img:depends_on>FS_D0Q1S4</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>179.96381</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S4</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A1_F"> <mmcif_img:depends_on>FS_D0Q1S4A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S4A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S5"> <mmcif_img:depends_on>FS_D0Q1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>24.0035125</mmcif_img:offset1> <mmcif_img:offset2>34.876875</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S5A0"> <mmcif_img:depends_on>FS_D0Q1S5</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.02434</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S5</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A0_F"> <mmcif_img:depends_on>FS_D0Q1S5A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S5A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S5A1"> <mmcif_img:depends_on>FS_D0Q1S5</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.02434</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S5</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A1_F"> <mmcif_img:depends_on>FS_D0Q1S5A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S5A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S6"> <mmcif_img:depends_on>FS_D0Q1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>33.2523125</mmcif_img:offset1> <mmcif_img:offset2>-23.321925</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S6A0"> <mmcif_img:depends_on>FS_D0Q1S6</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.08027</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S6</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A0_F"> <mmcif_img:depends_on>FS_D0Q1S6A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S6A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S6A1"> <mmcif_img:depends_on>FS_D0Q1S6</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.08027</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S6</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A1_F"> <mmcif_img:depends_on>FS_D0Q1S6A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S6A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S7"> <mmcif_img:depends_on>FS_D0Q1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>9.9785125</mmcif_img:offset1> <mmcif_img:offset2>-23.358225</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S7A0"> <mmcif_img:depends_on>FS_D0Q1S7</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.15067</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S7</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A0_F"> <mmcif_img:depends_on>FS_D0Q1S7A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S7A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q1S7A1"> <mmcif_img:depends_on>FS_D0Q1S7</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.15067</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q1S7</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A1_F"> <mmcif_img:depends_on>FS_D0Q1S7A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S7A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2"> <mmcif_img:depends_on>AXIS_D0_R</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_quadrant</mmcif_img:equipment_component> <mmcif_img:offset1>49.596146875</mmcif_img:offset1> <mmcif_img:offset2>-41.351371875</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S0"> <mmcif_img:depends_on>FS_D0Q2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-11.3150125</mmcif_img:offset1> <mmcif_img:offset2>23.1242</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S0A0"> <mmcif_img:depends_on>FS_D0Q2S0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>90.04803</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S0</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A0_F"> <mmcif_img:depends_on>FS_D0Q2S0A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S0A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S0A1"> <mmcif_img:depends_on>FS_D0Q2S0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>90.04803</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S0</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A1_F"> <mmcif_img:depends_on>FS_D0Q2S0A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S0A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S1"> <mmcif_img:depends_on>FS_D0Q2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-34.6999125</mmcif_img:offset1> <mmcif_img:offset2>23.155</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S1A0"> <mmcif_img:depends_on>FS_D0Q2S1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>90.00592</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S1</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A0_F"> <mmcif_img:depends_on>FS_D0Q2S1A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S1A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S1A1"> <mmcif_img:depends_on>FS_D0Q2S1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>90.00592</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S1</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A1_F"> <mmcif_img:depends_on>FS_D0Q2S1A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S1A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S2"> <mmcif_img:depends_on>FS_D0Q2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>23.4746875</mmcif_img:offset1> <mmcif_img:offset2>10.7811</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S2A0"> <mmcif_img:depends_on>FS_D0Q2S2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.11318</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S2</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A0_F"> <mmcif_img:depends_on>FS_D0Q2S2A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S2A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S2A1"> <mmcif_img:depends_on>FS_D0Q2S2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.11318</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S2</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A1_F"> <mmcif_img:depends_on>FS_D0Q2S2A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S2A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S3"> <mmcif_img:depends_on>FS_D0Q2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>23.6220875</mmcif_img:offset1> <mmcif_img:offset2>34.2221</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S3A0"> <mmcif_img:depends_on>FS_D0Q2S3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>179.92104</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S3</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A0_F"> <mmcif_img:depends_on>FS_D0Q2S3A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S3A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S3A1"> <mmcif_img:depends_on>FS_D0Q2S3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>179.92104</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S3</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A1_F"> <mmcif_img:depends_on>FS_D0Q2S3A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S3A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S4"> <mmcif_img:depends_on>FS_D0Q2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>11.1953875</mmcif_img:offset1> <mmcif_img:offset2>-23.9954</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S4A0"> <mmcif_img:depends_on>FS_D0Q2S4</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>89.63875</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S4</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A0_F"> <mmcif_img:depends_on>FS_D0Q2S4A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S4A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S4A1"> <mmcif_img:depends_on>FS_D0Q2S4</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>89.63875</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S4</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A1_F"> <mmcif_img:depends_on>FS_D0Q2S4A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S4A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S5"> <mmcif_img:depends_on>FS_D0Q2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>34.5494875</mmcif_img:offset1> <mmcif_img:offset2>-24.1901</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S5A0"> <mmcif_img:depends_on>FS_D0Q2S5</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>89.68154</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S5</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A0_F"> <mmcif_img:depends_on>FS_D0Q2S5A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S5A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S5A1"> <mmcif_img:depends_on>FS_D0Q2S5</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>89.68154</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S5</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A1_F"> <mmcif_img:depends_on>FS_D0Q2S5A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S5A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S6"> <mmcif_img:depends_on>FS_D0Q2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-23.4854125</mmcif_img:offset1> <mmcif_img:offset2>-33.2552</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S6A0"> <mmcif_img:depends_on>FS_D0Q2S6</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>179.83473</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S6</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A0_F"> <mmcif_img:depends_on>FS_D0Q2S6A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S6A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S6A1"> <mmcif_img:depends_on>FS_D0Q2S6</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>179.83473</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S6</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A1_F"> <mmcif_img:depends_on>FS_D0Q2S6A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S6A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S7"> <mmcif_img:depends_on>FS_D0Q2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-23.3413125</mmcif_img:offset1> <mmcif_img:offset2>-9.8417</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S7A0"> <mmcif_img:depends_on>FS_D0Q2S7</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.092</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S7</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A0_F"> <mmcif_img:depends_on>FS_D0Q2S7A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S7A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q2S7A1"> <mmcif_img:depends_on>FS_D0Q2S7</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.092</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q2S7</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A1_F"> <mmcif_img:depends_on>FS_D0Q2S7A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S7A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3"> <mmcif_img:depends_on>AXIS_D0_R</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_quadrant</mmcif_img:equipment_component> <mmcif_img:offset1>-41.247903125</mmcif_img:offset1> <mmcif_img:offset2>-50.441634375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S0"> <mmcif_img:depends_on>FS_D0Q3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>23.1056375</mmcif_img:offset1> <mmcif_img:offset2>11.6367625</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S0A0"> <mmcif_img:depends_on>FS_D0Q3S0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.12436</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S0</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A0_F"> <mmcif_img:depends_on>FS_D0Q3S0A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S0A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S0A1"> <mmcif_img:depends_on>FS_D0Q3S0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.12436</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S0</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A1_F"> <mmcif_img:depends_on>FS_D0Q3S0A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S0A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S1"> <mmcif_img:depends_on>FS_D0Q3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>23.1298375</mmcif_img:offset1> <mmcif_img:offset2>34.9864625</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S1A0"> <mmcif_img:depends_on>FS_D0Q3S1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.00263</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S1</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A0_F"> <mmcif_img:depends_on>FS_D0Q3S1A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S1A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S1A1"> <mmcif_img:depends_on>FS_D0Q3S1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.00263</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S1</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A1_F"> <mmcif_img:depends_on>FS_D0Q3S1A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S1A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S2"> <mmcif_img:depends_on>FS_D0Q3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>10.9572375</mmcif_img:offset1> <mmcif_img:offset2>-23.5830375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S2A0"> <mmcif_img:depends_on>FS_D0Q3S2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.55191</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S2</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A0_F"> <mmcif_img:depends_on>FS_D0Q3S2A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S2A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S2A1"> <mmcif_img:depends_on>FS_D0Q3S2</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.55191</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S2</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A1_F"> <mmcif_img:depends_on>FS_D0Q3S2A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S2A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S3"> <mmcif_img:depends_on>FS_D0Q3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>34.4180375</mmcif_img:offset1> <mmcif_img:offset2>-23.4818375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S3A0"> <mmcif_img:depends_on>FS_D0Q3S3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.74206</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S3</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A0_F"> <mmcif_img:depends_on>FS_D0Q3S3A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S3A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S3A1"> <mmcif_img:depends_on>FS_D0Q3S3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.74206</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S3</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A1_F"> <mmcif_img:depends_on>FS_D0Q3S3A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S3A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S4"> <mmcif_img:depends_on>FS_D0Q3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-24.1283625</mmcif_img:offset1> <mmcif_img:offset2>-11.5336375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S4A0"> <mmcif_img:depends_on>FS_D0Q3S4</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.81971</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S4</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A0_F"> <mmcif_img:depends_on>FS_D0Q3S4A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S4A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S4A1"> <mmcif_img:depends_on>FS_D0Q3S4</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.81971</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S4</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A1_F"> <mmcif_img:depends_on>FS_D0Q3S4A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S4A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S5"> <mmcif_img:depends_on>FS_D0Q3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-24.1701625</mmcif_img:offset1> <mmcif_img:offset2>-34.9548375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S5A0"> <mmcif_img:depends_on>FS_D0Q3S5</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.99883</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S5</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A0_F"> <mmcif_img:depends_on>FS_D0Q3S5A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S5A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S5A1"> <mmcif_img:depends_on>FS_D0Q3S5</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.99883</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S5</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A1_F"> <mmcif_img:depends_on>FS_D0Q3S5A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S5A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S6"> <mmcif_img:depends_on>FS_D0Q3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-33.3089625</mmcif_img:offset1> <mmcif_img:offset2>23.4474625</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S6A0"> <mmcif_img:depends_on>FS_D0Q3S6</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.67299</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S6</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A0_F"> <mmcif_img:depends_on>FS_D0Q3S6A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S6A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S6A1"> <mmcif_img:depends_on>FS_D0Q3S6</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.67299</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S6</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A1_F"> <mmcif_img:depends_on>FS_D0Q3S6A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S6A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S7"> <mmcif_img:depends_on>FS_D0Q3</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_sensor</mmcif_img:equipment_component> <mmcif_img:offset1>-10.0032625</mmcif_img:offset1> <mmcif_img:offset2>23.4826625</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S7A0"> <mmcif_img:depends_on>FS_D0Q3S7</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.67561</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S7</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A0_F"> <mmcif_img:depends_on>FS_D0Q3S7A0</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S7A0_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="FS_D0Q3S7A1"> <mmcif_img:depends_on>FS_D0Q3S7</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.67561</mmcif_img:rotation> <mmcif_img:rotation_axis>FS_D0Q3S7</mmcif_img:rotation_axis> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A1_F"> <mmcif_img:depends_on>FS_D0Q3S7A1</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>-10.615000</mmcif_img:offset1> <mmcif_img:offset2>10.120000</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S7A1_F</mmcif_img:depends_on> <mmcif_img:equipment_component>detector_asic</mmcif_img:equipment_component> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> </mmcif_img:axisCategory> Example 6 - This example show an excerpt from the axis specification of an FEL detector provided by N. Sauter and A. Brewster, using _axis.rotation_axis and _axis.rotation to organize the positional dependencies. The approach in Example 5 is now preferred. The detector is divided into 4 quadrants, each quadrant contains 8 sensors and each sensor contains 2 ASICs. We want to be able to refine the placement of each of these elements, so we maintain the set of vectors that places them. To do this, the first vector of importance is an initial placement axis that moves from the origin along the Z axis a distance equal to the detector distance. This is the origin for the rest of the axes and is called AXIS_D0_ORIGIN. Each subsequent movement involves a frame shift. This is done by using two imageCIF axes: a rotation axis and a translation axis. The rotation axis is listed first, and includes no offset or angle. The actual frame shift is done by using a translation axis. An offset is used first in the parent's frame, and then an angle is listed to rotate around the rotation axis. Example, sensor five of quadrant 2. First a rotation axis is listed: AXIS_D0Q2S5_ROT rotation detector AXIS_D0Q2 0.0 0.0 1.0 0 0 0 . . This defines a rotation axis around the z-axis in the frame of quadrant 2. Next a translation axis is listed: AXIS_D0Q2S5 translation detector AXIS_D0Q2 . . . 34.5494875 -24.1901 0.0 89.68154 AXIS_D0Q2S5_ROT Here, in the frame of quadrant 2, we shift X by 34 and Y by -24 millimeters, then rotate 89 degrees around the axis named AXIS_D0Q2S5_ROT. And so forth. <mmcif_img:diffrn_detector_axisCategory> <mmcif_img:diffrn_detector_axis axis_id="AXIS_DETECTOR_X" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="AXIS_DETECTOR_Y" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="AXIS_DETECTOR_Z" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="AXIS_DETECTOR_PITCH" detector_id="CSPAD_FRONT"> </mmcif_img:diffrn_detector_axis> </mmcif_img:diffrn_detector_axisCategory> <mmcif_img:diffrn_detector_elementCategory> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S0A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S0A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S1A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S1A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S2A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S2A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S3A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S3A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S4A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S4A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S5A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S5A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S6A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S6A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S7A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q0S7A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S0A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S0A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S1A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S1A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S2A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S2A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S3A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S3A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S4A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S4A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S5A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S5A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S6A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S6A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S7A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q1S7A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S0A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S0A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S1A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S1A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S2A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S2A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S3A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S3A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S4A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S4A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S5A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S5A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S6A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S6A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S7A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q2S7A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S0A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S0A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S1A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S1A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S2A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S2A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S3A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S3A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S4A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S4A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S5A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S5A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S6A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S6A1"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S7A0"> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="CSPAD_FRONT" id="ELE_D0Q3S7A1"> </mmcif_img:diffrn_detector_element> </mmcif_img:diffrn_detector_elementCategory> <mmcif_img:axisCategory> <mmcif_img:axis equipment="source" id="AXIS_SOURCE"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>general</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="gravity" id="AXIS_GRAVITY"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>general</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_DETECTOR_Z"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_DETECTOR_Y"> <mmcif_img:depends_on>AXIS_DETECTOR_Z</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_DETECTOR_X"> <mmcif_img:depends_on>AXIS_DETECTOR_Y</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_DETECTOR_PITCH"> <mmcif_img:depends_on>AXIS_DETECTOR_X</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_DETECTOR_ROT"> <mmcif_img:depends_on>AXIS_DETECTOR_PITCH</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0_ORIGIN"> <mmcif_img:depends_on>AXIS_DETECTOR_PITCH</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>171.0104</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0_ROT"> <mmcif_img:depends_on>AXIS_D0_ORIGIN</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0"> <mmcif_img:depends_on>AXIS_D0_ORIGIN</mmcif_img:depends_on> <mmcif_img:offset1>0.0</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0_ROT"> <mmcif_img:depends_on>AXIS_D0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0"> <mmcif_img:depends_on>AXIS_D0</mmcif_img:depends_on> <mmcif_img:offset1>-49.860765625</mmcif_img:offset1> <mmcif_img:offset2>41.643353125</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0_ROT"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>11.3696</mmcif_img:offset1> <mmcif_img:offset2>-23.189925</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>89.66181</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A0"> <mmcif_img:depends_on>AXIS_D0Q0S0</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S0A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A0_F"> <mmcif_img:depends_on>AXIS_D0Q0S0A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S0A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A1"> <mmcif_img:depends_on>AXIS_D0Q0S0</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S0A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A1_F"> <mmcif_img:depends_on>AXIS_D0Q0S0A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S0A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S0A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1_ROT"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>34.815</mmcif_img:offset1> <mmcif_img:offset2>-23.309825</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>90.00132</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A0"> <mmcif_img:depends_on>AXIS_D0Q0S1</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S1A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A0_F"> <mmcif_img:depends_on>AXIS_D0Q0S1A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S1A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A1"> <mmcif_img:depends_on>AXIS_D0Q0S1</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S1A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A1_F"> <mmcif_img:depends_on>AXIS_D0Q0S1A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S1A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S1A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2_ROT"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>-23.5389</mmcif_img:offset1> <mmcif_img:offset2>-10.921625</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.68548</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S2_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A0"> <mmcif_img:depends_on>AXIS_D0Q0S2</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S2A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A0_F"> <mmcif_img:depends_on>AXIS_D0Q0S2A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S2A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A1"> <mmcif_img:depends_on>AXIS_D0Q0S2</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S2A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A1_F"> <mmcif_img:depends_on>AXIS_D0Q0S2A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S2A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S2A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3_ROT"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>-23.5499</mmcif_img:offset1> <mmcif_img:offset2>-34.181125</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.96513</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S3_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A0"> <mmcif_img:depends_on>AXIS_D0Q0S3</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S3A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A0_F"> <mmcif_img:depends_on>AXIS_D0Q0S3A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S3A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A1"> <mmcif_img:depends_on>AXIS_D0Q0S3</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S3A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A1_F"> <mmcif_img:depends_on>AXIS_D0Q0S3A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S3A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S3A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4_ROT"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>-11.2651</mmcif_img:offset1> <mmcif_img:offset2>24.282775</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.14738</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S4_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S4</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A0"> <mmcif_img:depends_on>AXIS_D0Q0S4</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S4A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A0_F"> <mmcif_img:depends_on>AXIS_D0Q0S4A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S4A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S4</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A1"> <mmcif_img:depends_on>AXIS_D0Q0S4</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S4A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A1_F"> <mmcif_img:depends_on>AXIS_D0Q0S4A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S4A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S4A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5_ROT"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>-34.7336</mmcif_img:offset1> <mmcif_img:offset2>24.169475</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.07896</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S5_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S5</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A0"> <mmcif_img:depends_on>AXIS_D0Q0S5</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S5A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A0_F"> <mmcif_img:depends_on>AXIS_D0Q0S5A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S5A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S5</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A1"> <mmcif_img:depends_on>AXIS_D0Q0S5</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S5A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A1_F"> <mmcif_img:depends_on>AXIS_D0Q0S5A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S5A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S5A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6_ROT"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>23.5488</mmcif_img:offset1> <mmcif_img:offset2>33.320375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.78222</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S6_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S6</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A0"> <mmcif_img:depends_on>AXIS_D0Q0S6</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S6A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A0_F"> <mmcif_img:depends_on>AXIS_D0Q0S6A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S6A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S6</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A1"> <mmcif_img:depends_on>AXIS_D0Q0S6</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S6A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A1_F"> <mmcif_img:depends_on>AXIS_D0Q0S6A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S6A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S6A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7_ROT"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7"> <mmcif_img:depends_on>AXIS_D0Q0</mmcif_img:depends_on> <mmcif_img:offset1>23.3541</mmcif_img:offset1> <mmcif_img:offset2>9.829875</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.89604</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S7_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S7</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A0"> <mmcif_img:depends_on>AXIS_D0Q0S7</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S7A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A0_F"> <mmcif_img:depends_on>AXIS_D0Q0S7A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A0_S"> <mmcif_img:depends_on>AXIS_D0Q0S7A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q0S7</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A1"> <mmcif_img:depends_on>AXIS_D0Q0S7</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q0S7A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A1_F"> <mmcif_img:depends_on>AXIS_D0Q0S7A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q0S7A1_S"> <mmcif_img:depends_on>AXIS_D0Q0S7A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1_ROT"> <mmcif_img:depends_on>AXIS_D0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1"> <mmcif_img:depends_on>AXIS_D0</mmcif_img:depends_on> <mmcif_img:offset1>41.512521875</mmcif_img:offset1> <mmcif_img:offset2>50.149653125</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0_ROT"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>-23.1589875</mmcif_img:offset1> <mmcif_img:offset2>-11.451825</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.27238</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A0"> <mmcif_img:depends_on>AXIS_D0Q1S0</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S0A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A0_F"> <mmcif_img:depends_on>AXIS_D0Q1S0A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S0A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A1"> <mmcif_img:depends_on>AXIS_D0Q1S0</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S0A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A1_F"> <mmcif_img:depends_on>AXIS_D0Q1S0A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S0A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S0A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1_ROT"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>-23.2073875</mmcif_img:offset1> <mmcif_img:offset2>-34.782825</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.00525999986641</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A0"> <mmcif_img:depends_on>AXIS_D0Q1S1</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S1A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A0_F"> <mmcif_img:depends_on>AXIS_D0Q1S1A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S1A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A1"> <mmcif_img:depends_on>AXIS_D0Q1S1</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S1A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A1_F"> <mmcif_img:depends_on>AXIS_D0Q1S1A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S1A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S1A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2_ROT"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>-10.7311875</mmcif_img:offset1> <mmcif_img:offset2>23.286175</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.02545</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S2_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A0"> <mmcif_img:depends_on>AXIS_D0Q1S2</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S2A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A0_F"> <mmcif_img:depends_on>AXIS_D0Q1S2A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S2A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A1"> <mmcif_img:depends_on>AXIS_D0Q1S2</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S2A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A1_F"> <mmcif_img:depends_on>AXIS_D0Q1S2A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S2A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S2A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3_ROT"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>-34.1402875</mmcif_img:offset1> <mmcif_img:offset2>23.344475</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.03066</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S3_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A0"> <mmcif_img:depends_on>AXIS_D0Q1S3</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S3A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A0_F"> <mmcif_img:depends_on>AXIS_D0Q1S3A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S3A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A1"> <mmcif_img:depends_on>AXIS_D0Q1S3</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S3A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A1_F"> <mmcif_img:depends_on>AXIS_D0Q1S3A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S3A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S3A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4_ROT"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>24.0035125</mmcif_img:offset1> <mmcif_img:offset2>11.407275</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>179.96381</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S4_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S4</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A0"> <mmcif_img:depends_on>AXIS_D0Q1S4</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S4A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A0_F"> <mmcif_img:depends_on>AXIS_D0Q1S4A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S4A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S4</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A1"> <mmcif_img:depends_on>AXIS_D0Q1S4</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S4A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A1_F"> <mmcif_img:depends_on>AXIS_D0Q1S4A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S4A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S4A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5_ROT"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>24.0035125</mmcif_img:offset1> <mmcif_img:offset2>34.876875</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.02434</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S5_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S5</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A0"> <mmcif_img:depends_on>AXIS_D0Q1S5</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S5A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A0_F"> <mmcif_img:depends_on>AXIS_D0Q1S5A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S5A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S5</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A1"> <mmcif_img:depends_on>AXIS_D0Q1S5</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S5A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A1_F"> <mmcif_img:depends_on>AXIS_D0Q1S5A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S5A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S5A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6_ROT"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>33.2523125</mmcif_img:offset1> <mmcif_img:offset2>-23.321925</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.08027</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S6_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S6</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A0"> <mmcif_img:depends_on>AXIS_D0Q1S6</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S6A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A0_F"> <mmcif_img:depends_on>AXIS_D0Q1S6A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S6A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S6</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A1"> <mmcif_img:depends_on>AXIS_D0Q1S6</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S6A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A1_F"> <mmcif_img:depends_on>AXIS_D0Q1S6A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S6A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S6A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7_ROT"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7"> <mmcif_img:depends_on>AXIS_D0Q1</mmcif_img:depends_on> <mmcif_img:offset1>9.9785125</mmcif_img:offset1> <mmcif_img:offset2>-23.358225</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>270.15067</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S7_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S7</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A0"> <mmcif_img:depends_on>AXIS_D0Q1S7</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S7A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A0_F"> <mmcif_img:depends_on>AXIS_D0Q1S7A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A0_S"> <mmcif_img:depends_on>AXIS_D0Q1S7A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q1S7</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A1"> <mmcif_img:depends_on>AXIS_D0Q1S7</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q1S7A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A1_F"> <mmcif_img:depends_on>AXIS_D0Q1S7A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q1S7A1_S"> <mmcif_img:depends_on>AXIS_D0Q1S7A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2_ROT"> <mmcif_img:depends_on>AXIS_D0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2"> <mmcif_img:depends_on>AXIS_D0</mmcif_img:depends_on> <mmcif_img:offset1>49.596146875</mmcif_img:offset1> <mmcif_img:offset2>-41.351371875</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0_ROT"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>-11.3150125</mmcif_img:offset1> <mmcif_img:offset2>23.1242</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>90.04803</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A0"> <mmcif_img:depends_on>AXIS_D0Q2S0</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S0A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A0_F"> <mmcif_img:depends_on>AXIS_D0Q2S0A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S0A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A1"> <mmcif_img:depends_on>AXIS_D0Q2S0</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S0A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A1_F"> <mmcif_img:depends_on>AXIS_D0Q2S0A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S0A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S0A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1_ROT"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>-34.6999125</mmcif_img:offset1> <mmcif_img:offset2>23.155</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>90.00592</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A0"> <mmcif_img:depends_on>AXIS_D0Q2S1</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S1A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A0_F"> <mmcif_img:depends_on>AXIS_D0Q2S1A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S1A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A1"> <mmcif_img:depends_on>AXIS_D0Q2S1</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S1A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A1_F"> <mmcif_img:depends_on>AXIS_D0Q2S1A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S1A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S1A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2_ROT"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>23.4746875</mmcif_img:offset1> <mmcif_img:offset2>10.7811</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.11318</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S2_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A0"> <mmcif_img:depends_on>AXIS_D0Q2S2</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S2A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A0_F"> <mmcif_img:depends_on>AXIS_D0Q2S2A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S2A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A1"> <mmcif_img:depends_on>AXIS_D0Q2S2</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S2A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A1_F"> <mmcif_img:depends_on>AXIS_D0Q2S2A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S2A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S2A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3_ROT"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>23.6220875</mmcif_img:offset1> <mmcif_img:offset2>34.2221</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>179.92104</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S3_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A0"> <mmcif_img:depends_on>AXIS_D0Q2S3</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S3A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A0_F"> <mmcif_img:depends_on>AXIS_D0Q2S3A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S3A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A1"> <mmcif_img:depends_on>AXIS_D0Q2S3</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S3A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A1_F"> <mmcif_img:depends_on>AXIS_D0Q2S3A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S3A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S3A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4_ROT"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>11.1953875</mmcif_img:offset1> <mmcif_img:offset2>-23.9954</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>89.63875</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S4_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S4</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A0"> <mmcif_img:depends_on>AXIS_D0Q2S4</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S4A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A0_F"> <mmcif_img:depends_on>AXIS_D0Q2S4A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S4A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S4</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A1"> <mmcif_img:depends_on>AXIS_D0Q2S4</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S4A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A1_F"> <mmcif_img:depends_on>AXIS_D0Q2S4A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S4A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S4A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5_ROT"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>34.5494875</mmcif_img:offset1> <mmcif_img:offset2>-24.1901</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>89.68154</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S5_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S5</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A0"> <mmcif_img:depends_on>AXIS_D0Q2S5</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S5A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A0_F"> <mmcif_img:depends_on>AXIS_D0Q2S5A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S5A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S5</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A1"> <mmcif_img:depends_on>AXIS_D0Q2S5</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S5A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A1_F"> <mmcif_img:depends_on>AXIS_D0Q2S5A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S5A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S5A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6_ROT"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>-23.4854125</mmcif_img:offset1> <mmcif_img:offset2>-33.2552</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>179.83473</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S6_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S6</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A0"> <mmcif_img:depends_on>AXIS_D0Q2S6</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S6A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A0_F"> <mmcif_img:depends_on>AXIS_D0Q2S6A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S6A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S6</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A1"> <mmcif_img:depends_on>AXIS_D0Q2S6</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S6A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A1_F"> <mmcif_img:depends_on>AXIS_D0Q2S6A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S6A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S6A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7_ROT"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7"> <mmcif_img:depends_on>AXIS_D0Q2</mmcif_img:depends_on> <mmcif_img:offset1>-23.3413125</mmcif_img:offset1> <mmcif_img:offset2>-9.8417</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.092</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S7_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S7</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A0"> <mmcif_img:depends_on>AXIS_D0Q2S7</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S7A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A0_F"> <mmcif_img:depends_on>AXIS_D0Q2S7A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A0_S"> <mmcif_img:depends_on>AXIS_D0Q2S7A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q2S7</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A1"> <mmcif_img:depends_on>AXIS_D0Q2S7</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q2S7A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A1_F"> <mmcif_img:depends_on>AXIS_D0Q2S7A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q2S7A1_S"> <mmcif_img:depends_on>AXIS_D0Q2S7A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3_ROT"> <mmcif_img:depends_on>AXIS_D0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3"> <mmcif_img:depends_on>AXIS_D0</mmcif_img:depends_on> <mmcif_img:offset1>-41.247903125</mmcif_img:offset1> <mmcif_img:offset2>-50.441634375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0_ROT"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>23.1056375</mmcif_img:offset1> <mmcif_img:offset2>11.6367625</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.12436</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A0"> <mmcif_img:depends_on>AXIS_D0Q3S0</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S0A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A0_F"> <mmcif_img:depends_on>AXIS_D0Q3S0A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S0A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A1"> <mmcif_img:depends_on>AXIS_D0Q3S0</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S0A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A1_F"> <mmcif_img:depends_on>AXIS_D0Q3S0A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S0A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S0A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1_ROT"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>23.1298375</mmcif_img:offset1> <mmcif_img:offset2>34.9864625</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>180.00263</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A0"> <mmcif_img:depends_on>AXIS_D0Q3S1</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S1A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A0_F"> <mmcif_img:depends_on>AXIS_D0Q3S1A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S1A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A1"> <mmcif_img:depends_on>AXIS_D0Q3S1</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S1A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A1_F"> <mmcif_img:depends_on>AXIS_D0Q3S1A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S1A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S1A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2_ROT"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>10.9572375</mmcif_img:offset1> <mmcif_img:offset2>-23.5830375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.55191</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S2_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A0"> <mmcif_img:depends_on>AXIS_D0Q3S2</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S2A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A0_F"> <mmcif_img:depends_on>AXIS_D0Q3S2A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S2A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S2</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A1"> <mmcif_img:depends_on>AXIS_D0Q3S2</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S2A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A1_F"> <mmcif_img:depends_on>AXIS_D0Q3S2A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S2A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S2A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3_ROT"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>34.4180375</mmcif_img:offset1> <mmcif_img:offset2>-23.4818375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.74206</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S3_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A0"> <mmcif_img:depends_on>AXIS_D0Q3S3</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S3A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A0_F"> <mmcif_img:depends_on>AXIS_D0Q3S3A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S3A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A1"> <mmcif_img:depends_on>AXIS_D0Q3S3</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S3A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A1_F"> <mmcif_img:depends_on>AXIS_D0Q3S3A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S3A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S3A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4_ROT"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>-24.1283625</mmcif_img:offset1> <mmcif_img:offset2>-11.5336375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.81971</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S4_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S4</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A0"> <mmcif_img:depends_on>AXIS_D0Q3S4</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S4A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A0_F"> <mmcif_img:depends_on>AXIS_D0Q3S4A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S4A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S4</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A1"> <mmcif_img:depends_on>AXIS_D0Q3S4</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S4A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A1_F"> <mmcif_img:depends_on>AXIS_D0Q3S4A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S4A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S4A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5_ROT"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>-24.1701625</mmcif_img:offset1> <mmcif_img:offset2>-34.9548375</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>359.99883</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S5_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S5</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A0"> <mmcif_img:depends_on>AXIS_D0Q3S5</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S5A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A0_F"> <mmcif_img:depends_on>AXIS_D0Q3S5A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S5A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S5</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A1"> <mmcif_img:depends_on>AXIS_D0Q3S5</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S5A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A1_F"> <mmcif_img:depends_on>AXIS_D0Q3S5A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S5A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S5A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6_ROT"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>-33.3089625</mmcif_img:offset1> <mmcif_img:offset2>23.4474625</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.67299</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S6_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S6</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A0"> <mmcif_img:depends_on>AXIS_D0Q3S6</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S6A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A0_F"> <mmcif_img:depends_on>AXIS_D0Q3S6A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S6A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S6</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A1"> <mmcif_img:depends_on>AXIS_D0Q3S6</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S6A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A1_F"> <mmcif_img:depends_on>AXIS_D0Q3S6A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S6A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S6A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7_ROT"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>-0.0</mmcif_img:vector1> <mmcif_img:vector2>-0.0</mmcif_img:vector2> <mmcif_img:vector3>-1.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7"> <mmcif_img:depends_on>AXIS_D0Q3</mmcif_img:depends_on> <mmcif_img:offset1>-10.0032625</mmcif_img:offset1> <mmcif_img:offset2>23.4826625</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>269.67561</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S7_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A0_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S7</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A0"> <mmcif_img:depends_on>AXIS_D0Q3S7</mmcif_img:depends_on> <mmcif_img:offset1>-10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S7A0_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A0_F"> <mmcif_img:depends_on>AXIS_D0Q3S7A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A0_S"> <mmcif_img:depends_on>AXIS_D0Q3S7A0</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A1_ROT"> <mmcif_img:depends_on>AXIS_D0Q3S7</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.0</mmcif_img:vector1> <mmcif_img:vector2>0.0</mmcif_img:vector2> <mmcif_img:vector3>0.0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A1"> <mmcif_img:depends_on>AXIS_D0Q3S7</mmcif_img:depends_on> <mmcif_img:offset1>10.835</mmcif_img:offset1> <mmcif_img:offset2>0.0</mmcif_img:offset2> <mmcif_img:offset3>0.0</mmcif_img:offset3> <mmcif_img:rotation>0.0</mmcif_img:rotation> <mmcif_img:rotation_axis>AXIS_D0Q3S7A1_ROT</mmcif_img:rotation_axis> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1 xsi:nil="true" /> <mmcif_img:vector2 xsi:nil="true" /> <mmcif_img:vector3 xsi:nil="true" /> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A1_F"> <mmcif_img:depends_on>AXIS_D0Q3S7A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="AXIS_D0Q3S7A1_S"> <mmcif_img:depends_on>AXIS_D0Q3S7A1</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:rotation xsi:nil="true" /> <mmcif_img:rotation_axis xsi:nil="true" /> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> </mmcif_img:axisCategory> The value of attribute depends_on in category axis specifies the next outermost axis upon which this axis depends, unless attribute rotation_axis in category axis is specified, in which case, attribute rotation_axis in category axis is next outermost and attribute depends_on in category axis is second outermost. This item is a pointer to attribute id in category axis in the same category. The value of attribute equipment_component in category axis specifies an arbitrary identifier of a component of the equipment to which the axis belongs, such as 'detector_arm' or 'detector_module'. The [1] element of the three-element vector used to specify the offset to the base of a rotation or translation axis. The vector is specified in millimetres. The [2] element of the three-element vector used to specify the offset to the base of a rotation or translation axis. The vector is specified in millimetres. The [3] element of the three-element vector used to specify the offset to the base of a rotation or translation axis. The vector is specified in millimetres. The value of attribute rotation in category axis specifies the fixed base rotation angle for attribute rotation_axis in category axis to which the value of any frame-by-frame setting, if any, should be added. Normally, ony the fixed value would be given. The value of attribute rotation_axis in category axis specifies and optional addtional dependency for this axis to be applied after applying attribute depends_on. in category axis This item is a pointer to attribute id in category axis in the same category. The value of attribute system in category axis specifies the coordinate system used to define the axis: 'laboratory', 'direct', 'orthogonal', 'reciprocal' or 'abstract'. The value of attribute type in category axis specifies the type of axis: 'rotation' or 'translation' (or 'general' when the type is not relevant, as for gravity). The [1] element of the three-element vector used to specify the direction of a rotation or translation axis. The vector should be normalized to be a unit vector and is dimensionless. The [2] element of the three-element vector used to specify the direction of a rotation or translation axis. The vector should be normalized to be a unit vector and is dimensionless. The [3] element of the three-element vector used to specify the direction of a rotation or translation axis. The vector should be normalized to be a unit vector and is dimensionless. The value of attribute equipment in category axis specifies the type of equipment using the axis: 'goniometer', 'detector', 'gravity', 'source' or 'general'. The value of attribute id in category axis must uniquely identify each axis relevant to the experiment. Note that multiple pieces of equipment may share the same axis (e.g. a twotheta arm), so the category key for AXIS also includes the equipment. The value of attribute variant in category axis gives the variant to which the given AXIS row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_DATA_FRAME category record the details about each frame of data. The items in this category were previously in a DIFFRN_FRAME_DATA category, which is now deprecated. The items from the old category are provided as aliases but should not be used for new work. Example 1 - A frame containing data from 4 frame elements. Each frame element has a common array configuration 'array_1' described in ARRAY_STRUCTURE and related categories. The data for each detector element are stored in four groups of binary data in the ARRAY_DATA category, linked by the array_id and binary_id. <mmcif_img:diffrn_data_frameCategory> <mmcif_img:diffrn_data_frame detector_element_id="d1_ccd_1" id="frame_1"> <mmcif_img:array_id>array_1</mmcif_img:array_id> <mmcif_img:binary_id>1</mmcif_img:binary_id> </mmcif_img:diffrn_data_frame> <mmcif_img:diffrn_data_frame detector_element_id="d1_ccd_2" id="frame_1"> <mmcif_img:array_id>array_1</mmcif_img:array_id> <mmcif_img:binary_id>2</mmcif_img:binary_id> </mmcif_img:diffrn_data_frame> <mmcif_img:diffrn_data_frame detector_element_id="d1_ccd_3" id="frame_1"> <mmcif_img:array_id>array_1</mmcif_img:array_id> <mmcif_img:binary_id>3</mmcif_img:binary_id> </mmcif_img:diffrn_data_frame> <mmcif_img:diffrn_data_frame detector_element_id="d1_ccd_4" id="frame_1"> <mmcif_img:array_id>array_1</mmcif_img:array_id> <mmcif_img:binary_id>4</mmcif_img:binary_id> </mmcif_img:diffrn_data_frame> </mmcif_img:diffrn_data_frameCategory> This item is a pointer to attribute id in category array_structure in the ARRAY_STRUCTURE category. This item is a pointer to attribute id in category array_structure_list_section in the ARRAY_STRUCTURE_LIST_SECTION category. This item is a pointer to attribute binary_id in category array_data in the ARRAY_DATA category. The value of attribute center_fast in category diffrn_data_frame is the fast index axis beam center position relative to the detector element face in the units specified in the data item '_diffrn_data_frame.center_units' along the fast axis of the detector from the center of the first pixel to the point at which the Z-axis (which should be colinear with the beam) intersects the face of the detector, if in fact is does. At the time of the measurement the current setting of detector positioner given frame are used. It is important to note that for measurements in millimetres, the sense of the axis is used, rather than the sign of the pixel-to-pixel increments. The value of attribute center_slow in category diffrn_data_frame is the slow index axis beam center position relative to the detector element face in the units specified in the data item '_diffrn_data_frame.center_units' along the slow axis of the detector from the center of the first pixel to the point at which the Z-axis (which should be colinear with the beam) intersects the face of the detector, if in fact is does. At the time of the measurement the current setting of detector positioner given frame are used. It is important to note that the sense of the axis is used, rather than the sign of the pixel-to-pixel increments. The value of attribute center_units in category diffrn_data_frame specifies the units in which the values of '_diffrn_data_frame.center_fast' and '_diffrn_data_frame.center_slow' are presented. The default is 'mm' for millimetres. The alternatives are 'pixels' and 'bins'. In all cases the center distances are measured from the center of the first pixel, i.e. in a 2x2 binning, the measuring origin is offset from the centers of the bins by one half pixel towards the first pixel. If 'bins' is specified, the data in '_array_intensities.pixel_fast_bin_size', '_array_intensities.pixel_slow_bin_size', and '_array_intensities.pixel_binning_method' is used to define the binning scheme. The value of attribute details in category diffrn_data_frame should give a description of special aspects of each frame of data. This is an appropriate location in which to record information from vendor headers as presented in those headers, but it should never be used as a substitute for providing the fully parsed information within the appropriate imgCIF/CBF categories. Normally, when a conversion from a miniCBF has been done the data from '_array_data.header_convention' should be transferred to this data item and '_array_data.header_convention' should be removed. Example of header information extracted from an ADSC Quantum 315 detector header by CBFlib_0.7.6. Image provided by Chris Nielsen of ADSC from a data collection at SSRL beamline 1-5. HEADER_BYTES = 512; DIM = 2; BYTE_ORDER = big_endian; TYPE = unsigned_short; SIZE1 = 3072; SIZE2 = 3072; PIXEL_SIZE = 0.102588; BIN = 2x2; DETECTOR_SN = 901; TIME = 29.945155; DISTANCE = 200.000000; PHI = 85.000000; OSC_START = 85.000000; OSC_RANGE = 1.000000; WAVELENGTH = 0.979381; BEAM_CENTER_X = 157.500000; BEAM_CENTER_Y = 157.500000; PIXEL SIZE = 0.102588; OSCILLATION RANGE = 1; EXPOSURE TIME = 29.9452; TWO THETA = 0; BEAM CENTRE = 157.5 157.5; This item is a pointer to attribute id in category diffrn_detector_element in the DIFFRN_DETECTOR_ELEMENT category. The value of attribute id in category diffrn_data_frame must uniquely identify each complete frame of data. The value of attribute variant in category diffrn_data_frame gives the variant to which the given DIFFRN_DATA_FRAME row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_DETECTOR category describe the detector used to measure the scattered radiation, including any analyser and post-sample collimation. Example 1 - based on PDB entry 5HVP and laboratory records for the structure corresponding to PDB entry 5HVP. <mmcif_img:diffrn_detectorCategory> <mmcif_img:diffrn_detector diffrn_id="d1"> <mmcif_img:detector>multiwire</mmcif_img:detector> <mmcif_img:type>Siemens</mmcif_img:type> </mmcif_img:diffrn_detector> </mmcif_img:diffrn_detectorCategory> A description of special aspects of the radiation detector. slow mode The general class of the radiation detector. photographic film scintillation counter CCD plate BF~3~ counter The deadtime in microseconds of the detector(s) used to measure the diffraction intensities. The gain setting for detector. This is a text string usually reflecting a detector setting that may have a simple or very complex relationship with the value of attribute gain in category array_intensities and should not be used directly for computations without further information. This tag is provided for completeness in recording the settings of an experiment using a dector with a panel-switch, jumper or control command that allows a choice of gain settings. The thickness in mm of the sensing layer of the detector for use in anglular corrections. The value of attribute number_of_axes in category diffrn_detector gives the number of axes of the positioner for the detector identified by attribute id. in category diffrn_detector The word 'positioner' is a general term used in instrumentation design for devices that are used to change the positions of portions of apparatus by linear translation, rotation or combinations of such motions. Axes which are used to provide a coordinate system for the face of an area detetctor should not be counted for this data item. The description of each axis should be provided by entries in DIFFRN_DETECTOR_AXIS. The make, model or name of the detector device used. This data item is a pointer to attribute id in category diffrn in the DIFFRN category. The value of attribute id in category diffrn uniquely defines a set of diffraction data. The value of attribute id in category diffrn_detector must uniquely identify each detector used to collect each diffraction data set. If the value of attribute id in category diffrn_detector is not given, it is implicitly equal to the value of attribute diffrn_id in category diffrn_detector. The value of attribute variant in category diffrn_detector gives the variant to which the given DIFFRN_DETECTOR row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_DETECTOR_AXIS category associate axes with detectors. This data item is a pointer to attribute id in category diffrn_detector in the DIFFRN_DETECTOR category. DEPRECATED -- DO NOT USE This data item is a pointer to attribute id in category axis in the AXIS category. This data item is a pointer to attribute id in category diffrn_detector in the DIFFRN_DETECTOR category. This item was previously named attribute id in category diffrn_detector_axis which is now a deprecated name. The old name is provided as an alias but should not be used for new work. The value of attribute variant in category diffrn_detector_axis gives the variant to which the given DIFFRN_DETECTOR_AXIS row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_DETECTOR_ELEMENT category record the details about spatial layout and other characteristics of each element of a detector which may have multiple elements. In most cases, giving more detailed information in ARRAY_STRUCTURE_LIST and ARRAY_STRUCTURE_LIST_AXIS is preferable to simply providing the centre of the detector element. Example 1 - Detector d1 is composed of four CCD detector elements, each 200 mm by 200 mm, arranged in a square, in the pattern 1 2 * 3 4 Note that the beam centre is slightly displaced from each of the detector elements, just beyond the lower right corner of 1, the lower left corner of 2, the upper right corner of 3 and the upper left corner of 4. For each element, the detector face coordiate system, is assumed to have the fast axis running from left to right and the slow axis running from top to bottom with the origin at the top left corner. <mmcif_img:diffrn_detector_elementCategory> <mmcif_img:diffrn_detector_element detector_id="d1" id="d1_ccd_1"> <mmcif_img:reference_center_fast>201.5</mmcif_img:reference_center_fast> <mmcif_img:reference_center_slow>201.5</mmcif_img:reference_center_slow> <mmcif_img:reference_center_units>mm</mmcif_img:reference_center_units> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="d1" id="d1_ccd_2"> <mmcif_img:reference_center_fast>-1.8</mmcif_img:reference_center_fast> <mmcif_img:reference_center_slow>201.5</mmcif_img:reference_center_slow> <mmcif_img:reference_center_units>mm</mmcif_img:reference_center_units> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="d1" id="d1_ccd_3"> <mmcif_img:reference_center_fast>201.6</mmcif_img:reference_center_fast> <mmcif_img:reference_center_slow>-1.4</mmcif_img:reference_center_slow> <mmcif_img:reference_center_units>mm</mmcif_img:reference_center_units> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="d1" id="d1_ccd_4"> <mmcif_img:reference_center_fast>-1.7</mmcif_img:reference_center_fast> <mmcif_img:reference_center_slow>-1.5</mmcif_img:reference_center_slow> <mmcif_img:reference_center_units>mm</mmcif_img:reference_center_units> </mmcif_img:diffrn_detector_element> </mmcif_img:diffrn_detector_elementCategory> The value of attribute center[1] in category diffrn_detector_element is the X component of the distortion-corrected beam centre in millimetres from the (0, 0) (lower-left) corner of the detector element viewed from the sample side. The X and Y axes are the laboratory coordinate system coordinates defined in the AXIS category measured when all positioning axes for the detector are at their zero settings. If the resulting X or Y axis is then orthogonal to the detector, the Z axis is used instead of the orthogonal axis. Because of ambiguity about the setting used to determine this center, use of this data item is deprecated. The data item attribute center_fast in category diffrn_data_frame which is referenced to the detector coordinate system and not directly to the laboratory coordinate system should be used instead. The value of attribute center[2] in category diffrn_detector_element is the Y component of the distortion-corrected beam centre in millimetres from the (0, 0) (lower-left) corner of the detector element viewed from the sample side. The X and Y axes are the laboratory coordinate system coordinates defined in the AXIS category measured when all positioning axes for the detector are at their zero settings. If the resulting X or Y axis is then orthogonal to the detector, the Z axis is used instead of the orthogonal axis. Because of ambiguity about the setting used to determine this center, use of this data item is deprecated. The data item attribute center_slow in category diffrn_data_frame which is referenced to the detector coordinate system and not directly to the laboratory coordinate system should be used instead. The value of attribute reference_center_fast in category diffrn_detector_element is the fast index axis beam center position relative to the detector element face in the units specified in the data item '_diffrn_detector_element.reference_center_units' along the fast axis of the detector from the center of the first pixel to the point at which the Z-axis (which should be colinear with the beam) intersects the face of the detector, if in fact is does. At the time of the measurement all settings of the detector positioner should be at their reference settings. If more than one reference setting has been used the value given whould be representive of the beam center as determined from the ensemble of settings. It is important to note that for measurements in millimetres, the sense of the axis is used, rather than the sign of the pixel-to-pixel increments. The value of attribute reference_center_slow in category diffrn_detector_element is the slow index axis beam center position relative to the detector element face in the units specified in the data item '_diffrn_detector_element.reference_center_units' along the slow axis of the detector from the center of the first pixel to the point at which the Z-axis (which should be colinear with the beam) intersects the face of the detector, if in fact is does. At the time of the measurement all settings of the detector positioner should be at their reference settings. If more than one reference setting has been used the value givien whould be representive of the beam center as determined from the ensemble of settings. It is important to note that the sense of the axis is used, rather than the sign of the pixel-to-pixel increments. The value of attribute reference_center_units in category diffrn_detector_element specifies the units in which the values of '_diffrn_detector_element.reference_center_fast' and '_diffrn_detector_element.reference_center_slow' are presented. The default is 'mm' for millimetres. The alternatives are 'pixels' and 'bins'. In all cases the center distances are measured from the center of the first pixel, i.e. in a 2x2 binning, the measuring origin is offset from the centers of the bins by one half pixel towards the first pixel. If 'bins' is specified, the data in '_array_intensities.pixel_fast_bin_size', '_array_intensities.pixel_slow_bin_size', and '_array_intensities.pixel_binning_method' is used to define the binning scheme. This item is a pointer to attribute id in category diffrn_detector in the DIFFRN_DETECTOR category. The value of attribute id in category diffrn_detector_element must uniquely identify each element of a detector. The value of attribute variant in category diffrn_detector_element gives the variant to which the given DIFFRN_DETECTOR_ELEMENT row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_FRAME_DATA category record the details about each frame of data. The items in this category are now in the DIFFRN_DATA_FRAME category. The items in the DIFFRN_FRAME_DATA category are now deprecated. The items from this category are provided as aliases in the 1.0 dictionary or, in the case of attribute details, in category diffrn_frame_data in the 1.4 dictionary. THESE ITEMS SHOULD NOT BE USED FOR NEW WORK. The items from the old category are provided in this dictionary for completeness but should not be used or cited. To avoid confusion, the example has been removed and the redundant parent-child links to other categories have been removed. All attribute mandatory_code in category item values have been changed to no THE DIFFRN_FRAME_DATA category is deprecated and should not be used. This item is a pointer to attribute id in category array_structure in the ARRAY_STRUCTURE category. DEPRECATED -- DO NOT USE This item is a pointer to attribute binary_id in category array_data in the ARRAY_STRUCTURE category. DEPRECATED -- DO NOT USE The value of attribute details in category diffrn_data_frame should give a description of special aspects of each frame of data. DEPRECATED -- DO NOT USE This item is a pointer to attribute id in category diffrn_detector_element in the DIFFRN_DETECTOR_ELEMENT category. DEPRECATED -- DO NOT USE The value of attribute id in category diffrn_frame_data must uniquely identify each complete frame of data. DEPRECATED -- DO NOT USE Data items in the DIFFRN_MEASUREMENT category record details about the device used to orient and/or position the crystal during data measurement and the manner in which the diffraction data were measured. Example 1 - based on PDB entry 5HVP and laboratory records for the structure corresponding to PDB entry 5HVP <mmcif_img:diffrn_measurementCategory> <mmcif_img:diffrn_measurement device="3-circle camera" diffrn_id="d1"> <mmcif_img:details> 440 frames, 0.20 degrees, 150 sec, detector distance 12 cm, detector angle 22.5 degrees</mmcif_img:details> <mmcif_img:device_details>none</mmcif_img:device_details> <mmcif_img:device_type>Supper model X</mmcif_img:device_type> <mmcif_img:method>omega scan</mmcif_img:method> </mmcif_img:diffrn_measurement> </mmcif_img:diffrn_measurementCategory> Example 2 - based on data set TOZ of Willis, Beckwith & Tozer [Acta Cryst. (1991), C47, 2276-2277]. <mmcif_img:diffrn_measurementCategory> <mmcif_img:diffrn_measurement diffrn_id="s1"> <mmcif_img:device_type>Philips PW1100/20 diffractometer</mmcif_img:device_type> <mmcif_img:method>theta/2theta (\q/2\q)</mmcif_img:method> </mmcif_img:diffrn_measurement> </mmcif_img:diffrn_measurementCategory> A description of special aspects of the intensity measurement. 440 frames, 0.20 degrees, 150 sec, detector distance 12 cm, detector angle 22.5 degrees A description of special aspects of the device used to measure the diffraction intensities. commercial goniometer modified locally to allow for 90\% \t arc The make, model or name of the measurement device (goniometer) used. Supper model q Huber model r Enraf-Nonius model s home-made Method used to measure intensities. profile data from theta/2theta (\q/2\q) scans The value of attribute number_of_axes in category diffrn_measurement gives the number of axes of the positioner for the goniometer or other sample orientation or positioning device identified by attribute id. in category diffrn_measurement The description of the axes should be provided by entries in DIFFRN_MEASUREMENT_AXIS. The value of attribute sample_detector_distance in category diffrn_measurement gives the unsigned distance in millimetres from the sample to the detector along the beam. The value of attribute sample_detector_voffset in category diffrn_measurement gives the signed distance in millimetres in the vertical direction (positive for up) from the center of the beam to the center of the detector. The physical device used to support the crystal during data collection. glass capillary quartz capillary fiber metal loop The general class of goniometer or device used to support and orient the specimen. If the value of attribute device in category diffrn_measurement is not given, it is implicitly equal to the value of attribute diffrn_id. in category diffrn_measurement Either attribute device in category diffrn_measurement or attribute id in category diffrn_measurement may be used to link to other categories. If the experimental setup admits multiple devices, then attribute id in category diffrn_measurement is used to provide a unique link. 3-circle camera 4-circle camera kappa-geometry camera oscillation camera precession camera This data item is a pointer to attribute id in category diffrn in the DIFFRN category. The value of attribute id in category diffrn_measurement must uniquely identify the set of mechanical characteristics of the device used to orient and/or position the sample used during the collection of each diffraction data set. If the value of attribute id in category diffrn_measurement is not given, it is implicitly equal to the value of attribute diffrn_id. in category diffrn_measurement Either attribute device in category diffrn_measurement or attribute id in category diffrn_measurement may be used to link to other categories. If the experimental setup admits multiple devices, then attribute id in category diffrn_measurement is used to provide a unique link. The value of attribute variant in category diffrn_measurement gives the variant to which the given DIFFRN_MEASUREMENT row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_MEASUREMENT_AXIS category associate axes with goniometers. This data item is a pointer to attribute id in category diffrn_measurement in the DIFFRN_MEASUREMENT category. DEPRECATED -- DO NOT USE This data item is a pointer to attribute id in category axis in the AXIS category. This data item is a pointer to attribute device in category diffrn_measurement in the DIFFRN_MEASUREMENT category. This data item is a pointer to attribute id in category diffrn_measurement in the DIFFRN_MEASUREMENT category. This item was previously named attribute id, in category diffrn_measurement_axis which is now a deprecated name. The old name is provided as an alias but should not be used for new work. The value of attribute variant in category diffrn_measurement_axis gives the variant to which the given DIFFRN_MEASUREMENT_AXIS row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_RADIATION category describe the radiation used for measuring diffraction intensities, its collimation and monochromatization before the sample. Post-sample treatment of the beam is described by data items in the DIFFRN_DETECTOR category. Example 1 - based on PDB entry 5HVP and laboratory records for the structure corresponding to PDB entry 5HVP <mmcif_img:diffrn_radiationCategory> <mmcif_img:diffrn_radiation diffrn_id="set1"> <mmcif_img:collimation>0.3 mm double pinhole</mmcif_img:collimation> <mmcif_img:monochromator>graphite</mmcif_img:monochromator> <mmcif_img:type>Cu K\a</mmcif_img:type> <mmcif_img:wavelength_id>1</mmcif_img:wavelength_id> </mmcif_img:diffrn_radiation> </mmcif_img:diffrn_radiationCategory> Example 2 - based on data set TOZ of Willis, Beckwith & Tozer [Acta Cryst. (1991), C47, 2276-2277]. The collimation or focusing applied to the radiation. 0.3 mm double-pinhole 0.5 mm focusing mirrors Beam crossfire in degrees parallel to the laboratory X axis (see AXIS category). This is a characteristic of the X-ray beam as it illuminates the sample (or specimen) after all monochromation and collimation. This is the standard uncertainty (e.s.d.) of the directions of photons in the XZ plane around the mean source beam direction. Note that for some synchrotrons this value is specified in milliradians, in which case a conversion is needed. To convert a value in milliradians to a value in degrees, multiply by 0.180 and divide by \p. Beam crossfire correlation degrees^2^ between the crossfire laboratory X-axis component and the crossfire laboratory Y-axis component (see AXIS category). This is a characteristic of the X-ray beam as it illuminates the sample (or specimen) after all monochromation and collimation. This is the mean of the products of the deviations of the direction of each photon in XZ plane times the deviations of the direction of the same photon in the YZ plane around the mean source beam direction. This will be zero for uncorrelated crossfire. Note that some synchrotrons, this value is specified in milliradians^2^, in which case a conversion would be needed. To go from a value in milliradians^2^ to a value in degrees^2^, multiply by 0.180^2^ and divide by \p^2^. Beam crossfire in degrees parallel to the laboratory Y axis (see AXIS category). This is a characteristic of the X-ray beam as it illuminates the sample (or specimen) after all monochromation and collimation. This is the standard uncertainty (e.s.d.) of the directions of photons in the YZ plane around the mean source beam direction. Note that for some synchrotrons this value is specified in milliradians, in which case a conversion is needed. To convert a value in milliradians to a value in degrees, multiply by 0.180 and divide by \p. Absorption edge in \%Angstroms of the radiation filter used. Half-width in millimetres of the incident beam in the direction perpendicular to the diffraction plane. The method used to obtain monochromatic radiation. If a monochromator crystal is used, the material and the indices of the Bragg reflection are specified. Zr filter Ge 220 none equatorial mounted graphite The angle in degrees, as viewed from the specimen, between the perpendicular component of the polarization and the diffraction plane. See _diffrn_radiation_polarisn_ratio. Polarization ratio of the diffraction beam incident on the crystal. This is the ratio of the perpendicularly polarized to the parallel polarized component of the radiation. The perpendicular component forms an angle of attribute polarisn_norm in category diffrn_radiation to the normal to the diffraction plane of the sample (i.e. the plane containing the incident and reflected beams). Ip+In, where where Ip is the intensity (amplitude squared) of the electric vector in the plane of polarization and In is the intensity (amplitude squared) of the electric vector in the plane of the normal to the plane of polarization. This is an average or other representative sample of the scan. This is the first of the Stokes polarization parameters, I, Q, U, V (also known as I, M, C, S). See H. H. Berry, G. Gabrielse, A. E. Livingston (1977), "Measurement of the Stokes parameters of Light", Applied Optics, 16:12, 3200 -- 3205. If the absolute intensity is not known, the value 1. is assumed for I, and all 4 Stokes parameters are dimensionless. When the absolute intensity is known, all 4 Stokes parameters are in units of Watts per square meter. (Ip-In)*cos(2*theta), where where Ip is the intensity (amplitude squared) of the electric vector in the plane of polarization, In is the intensity (amplitude squared) of the electric vector in the plane of the normal to the plane of polarization, and theta is the angle as viewed from the specimen, between the normal to the polarization plane and the laboratory Y axis as defined in the AXIS category. This is an average or other representative sample of the scan. This is the second of the Stokes polarization parameters, I, Q, U, V (also known as I, M, C, S). See H. H. Berry, G. Gabrielse, A. E. Livingston (1977), "Measurement of the Stokes parameters of Light", Applied Optics, 16:12, 3200 -- 3205. If the absolute intensity is not known, the value 1. is assumed for I, and all 4 Stokes parameters are dimensionless. When the absolute intensity is known, all 4 Stokes parameters are in units of Watts per square meter. (Ip-In)*sin(2*theta), where where Ip is the intensity (amplitude squared) of the electric vector in the plane of polarization, In is the intensity (amplitude squared) of the electric vector in the plane of the normal to the plane of polarization, and theta is the angle as viewed from the specimen, between the normal to the polarization plane and the laboratory Y axis as defined in the AXIS category. This is an average or other representative sample of the scan. This is the third of the Stokes polarization parameters, I, Q, U, V (also known as I, M, C, S). See H. H. Berry, G. Gabrielse, A. E. Livingston (1977), "Measurement of the Stokes parameters of Light", Applied Optics, 16:12, 3200 -- 3205. If the absolute intensity is not known, the value 1. is assumed for I, and all 4 Stokes parameters are dimensionless. When the absolute intensity is known, all 4 Stokes parameters are in units of Watts per square meter. +/-sqrt(IpIn), with a + sign for right-handed circular polarization, where where Ip is the intensity (amplitude squared) of the electric vector in the plane of polarization and In is the intensity (amplitude squared) of the electric vector in the plane of the normal to the plane of polarization, and theta is the angle as viewed from the specimen, between the normal to the polarization plane and the laboratory Y axis as defined in the AXIS category. This is an average or other representative sample of the scan. This is the fourth of the Stokes polarization parameters, I, Q, U, V (also known as I, M, C, S). See H. H. Berry, G. Gabrielse, A. E. Livingston (1977), "Measurement of the Stokes parameters of Light", Applied Optics, 16:12, 3200 -- 3205. If the absolute intensity is not known, the value 1. is assumed for I, and all 4 Stokes parameters are dimensionless. When the absolute intensity is known, all 4 Stokes parameters are in units of Watts per square meter. The angle in degrees, as viewed from the specimen, between the normal to the polarization plane and the laboratory Y axis as defined in the AXIS category. Note that this is the angle of polarization of the source photons, either directly from a synchrotron beamline or from a monochromater. This differs from the value of attribute polarisn_norm in category diffrn_radiation in that attribute polarisn_norm in category diffrn_radiation refers to polarization relative to the diffraction plane rather than to the laboratory axis system. In the case of an unpolarized beam, or a beam with true circular polarization, in which no single plane of polarization can be determined, the plane should be taken as the XZ plane and the angle as 0. See attribute polarizn_source_ratio in category diffrn_radiation. (Ip-In)/(Ip+In), where Ip is the intensity (amplitude squared) of the electric vector in the plane of polarization and In is the intensity (amplitude squared) of the electric vector in the plane of the normal to the plane of polarization. In the case of an unpolarized beam, or a beam with true circular polarization, in which no single plane of polarization can be determined, the plane is to be taken as the XZ plane and the normal is parallel to the Y axis. Thus, if there was complete polarization in the plane of polarization, the value of attribute polarizn_source_ratio in category diffrn_radiation would be 1, and for an unpolarized beam attribute polarizn_source_ratio in category diffrn_radiation would have a value of 0. If the X axis has been chosen to lie in the plane of polarization, this definition will agree with the definition of 'MONOCHROMATOR' in the Denzo glossary, and values of near 1 should be expected for a bending-magnet source. However, if the X axis were perpendicular to the polarization plane (not a common choice), then the Denzo value would be the negative of attribute polarizn_source_ratio. in category diffrn_radiation See http://www.hkl-xray.com for information on Denzo and Otwinowski & Minor (1997). This differs both in the choice of ratio and choice of orientation from attribute polarisn_ratio in category diffrn_radiation, which, unlike attribute polarizn_source_ratio in category diffrn_radiation, is unbounded. Reference: Otwinowski, Z. & Minor, W. (1997). 'Processing of X-ray diffraction data collected in oscillation mode.' Methods Enzymol. 276, 307-326. Name of the type of radiation used. It is strongly recommended that this be given so that the probe radiation is clearly specified. The nature of the radiation. This is typically a description of the X-ray wavelength in Siegbahn notation. CuK\a Cu K\a~1~ Cu K-L~2,3~ white-beam This data item is a pointer to attribute id in category diffrn_radiation_wavelength in the DIFFRN_RADIATION_WAVELENGTH category. The IUPAC symbol for the X-ray wavelength for the probe radiation. This data item is a pointer to attribute id in category diffrn in the DIFFRN category. The value of attribute variant in category diffrn_radiation gives the variant to which the given DIFFRN_RADIATION row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. This category redefinition has been added to extend the key of the standard DIFFRN_REFLN category. Data items in the DIFFRN_REFLN category record details about the intensities in the diffraction data set identified by attribute diffrn_id. in category diffrn_refln The DIFFRN_REFLN data items refer to individual intensity measurements and must be included in looped lists. The DIFFRN_REFLNS data items specify the parameters that apply to all intensity measurements in the particular diffraction data set identified by attribute diffrn_id in category diffrn_reflns and attribute frame_id in category diffrn_refln This item is a placeholder for the definition in the PDBx/mmCIF dictionary This item is a pointer to attribute id in category diffrn_data_frame in the DIFFRN_DATA_FRAME category. This item is a placeholder for the definition in the PDBx/mmCIF dictionary. The value of attribute variant in category diffrn_refln gives the variant to which the given DIFFRN_REFLN row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_SCAN category describe the parameters of one or more scans, relating axis positions to frames. Example 1 - derived from a suggestion by R. M. Sweet. The vector of each axis is not given here, because it is provided in the AXIS category. By making _diffrn_scan_axis.scan_id and _diffrn_scan_axis.axis_id keys of the DIFFRN_SCAN_AXIS category, an arbitrary number of scanning and fixed axes can be specified for a scan. In this example, three rotation axes and one translation axis at nonzero values are specified, with one axis stepping. There is no reason why more axes could not have been specified to step. Range information has been specified, but note that it can be calculated from the number of frames and the increment, so the data item _diffrn_scan_axis.angle_range could be dropped. Both the sweep data and the data for a single frame are specified. Note that the information on how the axes are stepped is given twice, once in terms of the overall averages in the value of _diffrn_scan.integration_time and the values for DIFFRN_SCAN_AXIS, and precisely for the given frame in the value for _diffrn_scan_frame.integration_time and the values for DIFFRN_SCAN_FRAME_AXIS. If dose-related adjustments are made to scan times and nonlinear stepping is done, these values may differ. Therefore, in interpreting the data for a particular frame it is important to use the frame-specific data. <mmcif_img:diffrn_scanCategory> <mmcif_img:diffrn_scan id="1"> <mmcif_img:date_end>2001-11-18T03:36:45</mmcif_img:date_end> <mmcif_img:date_start>2001-11-18T03:26:42</mmcif_img:date_start> <mmcif_img:frame_id_end>mad_L2_200</mmcif_img:frame_id_end> <mmcif_img:frame_id_start>mad_L2_000</mmcif_img:frame_id_start> <mmcif_img:frames>201</mmcif_img:frames> <mmcif_img:integration_time>3.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan> </mmcif_img:diffrn_scanCategory> <mmcif_img:diffrn_scan_axisCategory> <mmcif_img:diffrn_scan_axis axis_id="omega" scan_id="1"> <mmcif_img:angle_increment>0.1</mmcif_img:angle_increment> <mmcif_img:angle_range>20.0</mmcif_img:angle_range> <mmcif_img:angle_start>200.0</mmcif_img:angle_start> <mmcif_img:displacement_increment xsi:nil="true" /> <mmcif_img:displacement_range xsi:nil="true" /> <mmcif_img:displacement_start xsi:nil="true" /> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="kappa" scan_id="1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>-40.0</mmcif_img:angle_start> <mmcif_img:displacement_increment xsi:nil="true" /> <mmcif_img:displacement_range xsi:nil="true" /> <mmcif_img:displacement_start xsi:nil="true" /> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="phi" scan_id="1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>127.5</mmcif_img:angle_start> <mmcif_img:displacement_increment xsi:nil="true" /> <mmcif_img:displacement_range xsi:nil="true" /> <mmcif_img:displacement_start xsi:nil="true" /> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="tranz" scan_id="1"> <mmcif_img:angle_increment xsi:nil="true" /> <mmcif_img:angle_range xsi:nil="true" /> <mmcif_img:angle_start xsi:nil="true" /> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>2.3</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> </mmcif_img:diffrn_scan_axisCategory> <mmcif_img:diffrn_scan_frameCategory> <mmcif_img:diffrn_scan_frame frame_id="mad_L2_018" scan_id="1"> <mmcif_img:date>2001-11-18T03:27:33</mmcif_img:date> <mmcif_img:frame_number>18</mmcif_img:frame_number> <mmcif_img:integration_time>3.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame> </mmcif_img:diffrn_scan_frameCategory> <mmcif_img:diffrn_scan_frame_axisCategory> <mmcif_img:diffrn_scan_frame_axis axis_id="omega" frame_id="mad_L2_018"> <mmcif_img:angle>201.8</mmcif_img:angle> <mmcif_img:angle_increment>0.1</mmcif_img:angle_increment> <mmcif_img:displacement xsi:nil="true" /> <mmcif_img:displacement_increment xsi:nil="true" /> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="kappa" frame_id="mad_L2_018"> <mmcif_img:angle>-40.0</mmcif_img:angle> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:displacement xsi:nil="true" /> <mmcif_img:displacement_increment xsi:nil="true" /> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="phi" frame_id="mad_L2_018"> <mmcif_img:angle>127.5</mmcif_img:angle> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:displacement xsi:nil="true" /> <mmcif_img:displacement_increment xsi:nil="true" /> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="tranz" frame_id="mad_L2_018"> <mmcif_img:angle xsi:nil="true" /> <mmcif_img:angle_increment xsi:nil="true" /> <mmcif_img:displacement>2.3</mmcif_img:displacement> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> </mmcif_img:diffrn_scan_frame_axis> </mmcif_img:diffrn_scan_frame_axisCategory> Example 2 - a more extensive example (R. M. Sweet, P. J. Ellis & H. J. Bernstein). A detector is placed 240 mm along the Z axis from the goniometer. This leads to a choice: either the axes of the detector are defined at the origin, and then a Z setting of -240 is entered, or the axes are defined with the necessary Z offset. In this case, the setting is used and the offset is left as zero. This axis is called DETECTOR_Z. The axis for positioning the detector in the Y direction depends on the detector Z axis. This axis is called DETECTOR_Y. The axis for positioning the detector in the X direction depends on the detector Y axis (and therefore on the detector Z axis). This axis is called DETECTOR_X. This detector may be rotated around the Y axis. This rotation axis depends on the three translation axes. It is called DETECTOR_PITCH. A coordinate system is defined on the face of the detector in terms of 2300 0.150 mm pixels in each direction. The ELEMENT_X axis is used to index the first array index of the data array and the ELEMENT_Y axis is used to index the second array index. Because the pixels are 0.150mm X 0.150mm, the centre of the first pixel is at (0.075, 0.075) in this coordinate system. <mmcif_img:diffrn_radiationCategory> <mmcif_img:diffrn_radiation diffrn_id="P6MB"> <mmcif_img:div_x_source>0.08</mmcif_img:div_x_source> <mmcif_img:div_x_y_source>0.00</mmcif_img:div_x_y_source> <mmcif_img:div_y_source>0.01</mmcif_img:div_y_source> <mmcif_img:monochromator>Si 111</mmcif_img:monochromator> <mmcif_img:polarizn_source_norm>0.0</mmcif_img:polarizn_source_norm> <mmcif_img:polarizn_source_ratio>0.8</mmcif_img:polarizn_source_ratio> <mmcif_img:wavelength_id>WAVELENGTH1</mmcif_img:wavelength_id> </mmcif_img:diffrn_radiation> </mmcif_img:diffrn_radiationCategory> <mmcif_img:diffrn_detectorCategory> <mmcif_img:diffrn_detector diffrn_id="P6MB" id="MAR345-SN26"> <mmcif_img:number_of_axes>4</mmcif_img:number_of_axes> <mmcif_img:type>MAR 345</mmcif_img:type> </mmcif_img:diffrn_detector> </mmcif_img:diffrn_detectorCategory> <mmcif_img:diffrn_detector_axisCategory> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_X" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_Y" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_Z" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_PITCH" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> </mmcif_img:diffrn_detector_axisCategory> <mmcif_img:diffrn_detector_elementCategory> <mmcif_img:diffrn_detector_element detector_id="MAR345-SN26" id="ELEMENT1"> </mmcif_img:diffrn_detector_element> </mmcif_img:diffrn_detector_elementCategory> <mmcif_img:diffrn_data_frameCategory> <mmcif_img:diffrn_data_frame detector_element_id="ELEMENT1" id="FRAME1"> <mmcif_img:array_id>ARRAY1</mmcif_img:array_id> <mmcif_img:binary_id>1</mmcif_img:binary_id> </mmcif_img:diffrn_data_frame> </mmcif_img:diffrn_data_frameCategory> <mmcif_img:diffrn_measurementCategory> <mmcif_img:diffrn_measurement diffrn_id="P6MB" id="GONIOMETER"> <mmcif_img:method>rotation</mmcif_img:method> <mmcif_img:number_of_axes>3</mmcif_img:number_of_axes> </mmcif_img:diffrn_measurement> </mmcif_img:diffrn_measurementCategory> <mmcif_img:diffrn_measurement_axisCategory> <mmcif_img:diffrn_measurement_axis axis_id="GONIOMETER_PHI" measurement_id="GONIOMETER"> </mmcif_img:diffrn_measurement_axis> <mmcif_img:diffrn_measurement_axis axis_id="GONIOMETER_KAPPA" measurement_id="GONIOMETER"> </mmcif_img:diffrn_measurement_axis> <mmcif_img:diffrn_measurement_axis axis_id="GONIOMETER_OMEGA" measurement_id="GONIOMETER"> </mmcif_img:diffrn_measurement_axis> </mmcif_img:diffrn_measurement_axisCategory> <mmcif_img:diffrn_scanCategory> <mmcif_img:diffrn_scan id="SCAN1"> <mmcif_img:frame_id_end>FRAME1</mmcif_img:frame_id_end> <mmcif_img:frame_id_start>FRAME1</mmcif_img:frame_id_start> <mmcif_img:frames>1</mmcif_img:frames> </mmcif_img:diffrn_scan> </mmcif_img:diffrn_scanCategory> <mmcif_img:diffrn_scan_axisCategory> <mmcif_img:diffrn_scan_axis axis_id="GONIOMETER_OMEGA" scan_id="SCAN1"> <mmcif_img:angle_increment>1.0</mmcif_img:angle_increment> <mmcif_img:angle_range>1.0</mmcif_img:angle_range> <mmcif_img:angle_start>12.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="GONIOMETER_KAPPA" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>23.3</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="GONIOMETER_PHI" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>-165.8</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_Z" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>-240.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_Y" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.6</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_X" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>-0.5</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_PITCH" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> </mmcif_img:diffrn_scan_axisCategory> <mmcif_img:diffrn_scan_frameCategory> <mmcif_img:diffrn_scan_frame frame_id="FRAME1" scan_id="SCAN1"> <mmcif_img:date>1997-12-04T10:23:48</mmcif_img:date> <mmcif_img:frame_number>1</mmcif_img:frame_number> <mmcif_img:integration_time>20.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame> </mmcif_img:diffrn_scan_frameCategory> <mmcif_img:diffrn_scan_frame_axisCategory> <mmcif_img:diffrn_scan_frame_axis axis_id="GONIOMETER_OMEGA" frame_id="FRAME1"> <mmcif_img:angle>12.0</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="GONIOMETER_KAPPA" frame_id="FRAME1"> <mmcif_img:angle>23.3</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="GONIOMETER_PHI" frame_id="FRAME1"> <mmcif_img:angle>-165.8</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_Z" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>-240.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_Y" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>0.6</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_X" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>-0.5</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_PITCH" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> </mmcif_img:diffrn_scan_frame_axisCategory> <mmcif_img:axisCategory> <mmcif_img:axis equipment="goniometer" id="GONIOMETER_OMEGA"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="goniometer" id="GONIOMETER_KAPPA"> <mmcif_img:depends_on>GONIOMETER_OMEGA</mmcif_img:depends_on> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.64279</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0.76604</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="goniometer" id="GONIOMETER_PHI"> <mmcif_img:depends_on>GONIOMETER_KAPPA</mmcif_img:depends_on> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="source" id="SOURCE"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>general</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="gravity" id="GRAVITY"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>general</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_Z"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_Y"> <mmcif_img:depends_on>DETECTOR_Z</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_X"> <mmcif_img:depends_on>DETECTOR_Y</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_PITCH"> <mmcif_img:depends_on>DETECTOR_X</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="ELEMENT_X"> <mmcif_img:depends_on>DETECTOR_PITCH</mmcif_img:depends_on> <mmcif_img:offset1>172.43</mmcif_img:offset1> <mmcif_img:offset2>-172.43</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="ELEMENT_Y"> <mmcif_img:depends_on>ELEMENT_X</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> </mmcif_img:axisCategory> <mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list array_id="ARRAY1" index="1"> <mmcif_img:axis_set_id>ELEMENT_X</mmcif_img:axis_set_id> <mmcif_img:dimension>2300</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>1</mmcif_img:precedence> </mmcif_img:array_structure_list> <mmcif_img:array_structure_list array_id="ARRAY1" index="2"> <mmcif_img:axis_set_id>ELEMENT_Y</mmcif_img:axis_set_id> <mmcif_img:dimension>2300</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>2</mmcif_img:precedence> </mmcif_img:array_structure_list> </mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list_axisCategory> <mmcif_img:array_structure_list_axis axis_id="ELEMENT_X" axis_set_id="ELEMENT_X"> <mmcif_img:displacement>0.075</mmcif_img:displacement> <mmcif_img:displacement_increment>0.150</mmcif_img:displacement_increment> </mmcif_img:array_structure_list_axis> <mmcif_img:array_structure_list_axis axis_id="ELEMENT_Y" axis_set_id="ELEMENT_Y"> <mmcif_img:displacement>0.075</mmcif_img:displacement> <mmcif_img:displacement_increment>0.150</mmcif_img:displacement_increment> </mmcif_img:array_structure_list_axis> </mmcif_img:array_structure_list_axisCategory> <mmcif_img:array_element_sizeCategory> <mmcif_img:array_element_size array_id="ARRAY1" index="1"> <mmcif_img:size>0.00015</mmcif_img:size> </mmcif_img:array_element_size> <mmcif_img:array_element_size array_id="ARRAY1" index="2"> <mmcif_img:size>0.00015</mmcif_img:size> </mmcif_img:array_element_size> </mmcif_img:array_element_sizeCategory> <mmcif_img:array_intensitiesCategory> <mmcif_img:array_intensities array_id="ARRAY1" binary_id="1"> <mmcif_img:gain>1.15</mmcif_img:gain> <mmcif_img:gain_esd>0.2</mmcif_img:gain_esd> <mmcif_img:linearity>linear</mmcif_img:linearity> <mmcif_img:overload>240000</mmcif_img:overload> <mmcif_img:undefined_value>0</mmcif_img:undefined_value> </mmcif_img:array_intensities> </mmcif_img:array_intensitiesCategory> <mmcif_img:array_structureCategory> <mmcif_img:array_structure id="ARRAY1"> <mmcif_img:byte_order>little_endian</mmcif_img:byte_order> <mmcif_img:compression_type>packed</mmcif_img:compression_type> <mmcif_img:encoding_type>signed 32-bit integer</mmcif_img:encoding_type> </mmcif_img:array_structure> </mmcif_img:array_structureCategory> <mmcif_img:array_dataCategory> <mmcif_img:array_data array_id="ARRAY1" binary_id="1"> <mmcif_img:data> --CIF-BINARY-FORMAT-SECTION-- Content-Type: application/octet-stream; conversions=&quot;X-CBF_PACKED&quot; Content-Transfer-Encoding: BASE64 X-Binary-Size: 3801324 X-Binary-ID: 1 X-Binary-Element-Type: &quot;signed 32-bit integer&quot; Content-MD5: 07lZFvF+aOcW85IN7usl8A== AABRAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAZBQSr1sKNBOeOe9HITdMdDUnbq7bg ... 8REo6TtBrxJ1vKqAvx9YDMD6J18Qg83OMr/tgssjMIJMXATDsZobL90AEXc4KigE --CIF-BINARY-FORMAT-SECTION----</mmcif_img:data> </mmcif_img:array_data> </mmcif_img:array_dataCategory> Example 3 - Example 2 revised for a spiral scan (R. M. Sweet, P. J. Ellis & H. J. Bernstein). A detector is placed 240 mm along the Z axis from the goniometer, as in Example 2 above, but in this example the image plate is scanned in a spiral pattern from the outside edge in. The axis for positioning the detector in the Y direction depends on the detector Z axis. This axis is called DETECTOR_Y. The axis for positioning the detector in the X direction depends on the detector Y axis (and therefore on the detector Z axis). This axis is called DETECTOR_X. This detector may be rotated around the Y axis. This rotation axis depends on the three translation axes. It is called DETECTOR_PITCH. A coordinate system is defined on the face of the detector in terms of a coupled rotation axis and radial scan axis to form a spiral scan. The rotation axis is called ELEMENT_ROT and the radial axis is called ELEMENT_RAD. A 150 micrometre radial pitch and a 75 micrometre 'constant velocity' angular pitch are assumed. Indexing is carried out first on the rotation axis and the radial axis is made to be dependent on it. The two axes are coupled to form an axis set ELEMENT_SPIRAL. <mmcif_img:diffrn_radiationCategory> <mmcif_img:diffrn_radiation diffrn_id="P6MB"> <mmcif_img:div_x_source>0.08</mmcif_img:div_x_source> <mmcif_img:div_x_y_source>0.00</mmcif_img:div_x_y_source> <mmcif_img:div_y_source>0.01</mmcif_img:div_y_source> <mmcif_img:monochromator>Si 111</mmcif_img:monochromator> <mmcif_img:polarizn_source_norm>0.0</mmcif_img:polarizn_source_norm> <mmcif_img:polarizn_source_ratio>0.8</mmcif_img:polarizn_source_ratio> <mmcif_img:wavelength_id>WAVELENGTH1</mmcif_img:wavelength_id> </mmcif_img:diffrn_radiation> </mmcif_img:diffrn_radiationCategory> <mmcif_img:diffrn_detectorCategory> <mmcif_img:diffrn_detector diffrn_id="P6MB" id="MAR345-SN26"> <mmcif_img:number_of_axes>4</mmcif_img:number_of_axes> <mmcif_img:type>MAR 345</mmcif_img:type> </mmcif_img:diffrn_detector> </mmcif_img:diffrn_detectorCategory> <mmcif_img:diffrn_detector_axisCategory> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_X" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_Y" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_Z" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_PITCH" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> </mmcif_img:diffrn_detector_axisCategory> <mmcif_img:diffrn_detector_elementCategory> <mmcif_img:diffrn_detector_element detector_id="MAR345-SN26" id="ELEMENT1"> </mmcif_img:diffrn_detector_element> </mmcif_img:diffrn_detector_elementCategory> <mmcif_img:diffrn_data_frameCategory> <mmcif_img:diffrn_data_frame detector_element_id="ELEMENT1" id="FRAME1"> <mmcif_img:array_id>ARRAY1</mmcif_img:array_id> <mmcif_img:binary_id>1</mmcif_img:binary_id> </mmcif_img:diffrn_data_frame> </mmcif_img:diffrn_data_frameCategory> <mmcif_img:diffrn_measurementCategory> <mmcif_img:diffrn_measurement diffrn_id="P6MB" id="GONIOMETER"> <mmcif_img:method>rotation</mmcif_img:method> <mmcif_img:number_of_axes>3</mmcif_img:number_of_axes> </mmcif_img:diffrn_measurement> </mmcif_img:diffrn_measurementCategory> <mmcif_img:diffrn_measurement_axisCategory> <mmcif_img:diffrn_measurement_axis axis_id="GONIOMETER_PHI" measurement_id="GONIOMETER"> </mmcif_img:diffrn_measurement_axis> <mmcif_img:diffrn_measurement_axis axis_id="GONIOMETER_KAPPA" measurement_id="GONIOMETER"> </mmcif_img:diffrn_measurement_axis> <mmcif_img:diffrn_measurement_axis axis_id="GONIOMETER_OMEGA" measurement_id="GONIOMETER"> </mmcif_img:diffrn_measurement_axis> </mmcif_img:diffrn_measurement_axisCategory> <mmcif_img:diffrn_scanCategory> <mmcif_img:diffrn_scan id="SCAN1"> <mmcif_img:frame_id_end>FRAME1</mmcif_img:frame_id_end> <mmcif_img:frame_id_start>FRAME1</mmcif_img:frame_id_start> <mmcif_img:frames>1</mmcif_img:frames> </mmcif_img:diffrn_scan> </mmcif_img:diffrn_scanCategory> <mmcif_img:diffrn_scan_axisCategory> <mmcif_img:diffrn_scan_axis axis_id="GONIOMETER_OMEGA" scan_id="SCAN1"> <mmcif_img:angle_increment>1.0</mmcif_img:angle_increment> <mmcif_img:angle_range>1.0</mmcif_img:angle_range> <mmcif_img:angle_start>12.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="GONIOMETER_KAPPA" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>23.3</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="GONIOMETER_PHI" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>-165.8</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_Z" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>-240.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_Y" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.6</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_X" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>-0.5</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_PITCH" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> </mmcif_img:diffrn_scan_axisCategory> <mmcif_img:diffrn_scan_frameCategory> <mmcif_img:diffrn_scan_frame frame_id="FRAME1" scan_id="SCAN1"> <mmcif_img:date>1997-12-04T10:23:48</mmcif_img:date> <mmcif_img:frame_number>1</mmcif_img:frame_number> <mmcif_img:integration_time>20.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame> </mmcif_img:diffrn_scan_frameCategory> <mmcif_img:diffrn_scan_frame_axisCategory> <mmcif_img:diffrn_scan_frame_axis axis_id="GONIOMETER_OMEGA" frame_id="FRAME1"> <mmcif_img:angle>12.0</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="GONIOMETER_KAPPA" frame_id="FRAME1"> <mmcif_img:angle>23.3</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="GONIOMETER_PHI" frame_id="FRAME1"> <mmcif_img:angle>-165.8</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_Z" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>-240.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_Y" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>0.6</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_X" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>-0.5</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_PITCH" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> </mmcif_img:diffrn_scan_frame_axisCategory> <mmcif_img:axisCategory> <mmcif_img:axis equipment="goniometer" id="GONIOMETER_OMEGA"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="goniometer" id="GONIOMETER_KAPPA"> <mmcif_img:depends_on>GONIOMETER_OMEGA</mmcif_img:depends_on> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.64279</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0.76604</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="goniometer" id="GONIOMETER_PHI"> <mmcif_img:depends_on>GONIOMETER_KAPPA</mmcif_img:depends_on> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="source" id="SOURCE"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>general</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="gravity" id="GRAVITY"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>general</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_Z"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_Y"> <mmcif_img:depends_on>DETECTOR_Z</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_X"> <mmcif_img:depends_on>DETECTOR_Y</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_PITCH"> <mmcif_img:depends_on>DETECTOR_X</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="ELEMENT_ROT"> <mmcif_img:depends_on>DETECTOR_PITCH</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="ELEMENT_RAD"> <mmcif_img:depends_on>ELEMENT_ROT</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> </mmcif_img:axisCategory> <mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list array_id="ARRAY1" index="1"> <mmcif_img:axis_set_id>ELEMENT_SPIRAL</mmcif_img:axis_set_id> <mmcif_img:dimension>8309900</mmcif_img:dimension> <mmcif_img:direction>increasing</mmcif_img:direction> <mmcif_img:precedence>1</mmcif_img:precedence> </mmcif_img:array_structure_list> </mmcif_img:array_structure_listCategory> <mmcif_img:array_structure_list_axisCategory> <mmcif_img:array_structure_list_axis axis_id="ELEMENT_ROT" axis_set_id="ELEMENT_SPIRAL"> <mmcif_img:angle>0</mmcif_img:angle> <mmcif_img:angular_pitch>0.075</mmcif_img:angular_pitch> <mmcif_img:displacement xsi:nil="true" /> <mmcif_img:radial_pitch xsi:nil="true" /> </mmcif_img:array_structure_list_axis> <mmcif_img:array_structure_list_axis axis_id="ELEMENT_RAD" axis_set_id="ELEMENT_SPIRAL"> <mmcif_img:angle xsi:nil="true" /> <mmcif_img:angular_pitch xsi:nil="true" /> <mmcif_img:displacement>172.5</mmcif_img:displacement> <mmcif_img:radial_pitch>-0.150</mmcif_img:radial_pitch> </mmcif_img:array_structure_list_axis> </mmcif_img:array_structure_list_axisCategory> <mmcif_img:array_element_sizeCategory> <mmcif_img:array_element_size array_id="ARRAY1" index="1"> <mmcif_img:size>0.00015</mmcif_img:size> </mmcif_img:array_element_size> </mmcif_img:array_element_sizeCategory> <mmcif_img:array_intensitiesCategory> <mmcif_img:array_intensities array_id="ARRAY1" binary_id="1"> <mmcif_img:gain>1.15</mmcif_img:gain> <mmcif_img:gain_esd>0.2</mmcif_img:gain_esd> <mmcif_img:linearity>linear</mmcif_img:linearity> <mmcif_img:overload>240000</mmcif_img:overload> <mmcif_img:undefined_value>0</mmcif_img:undefined_value> </mmcif_img:array_intensities> </mmcif_img:array_intensitiesCategory> <mmcif_img:array_structureCategory> <mmcif_img:array_structure id="ARRAY1"> <mmcif_img:byte_order>little_endian</mmcif_img:byte_order> <mmcif_img:compression_type>packed</mmcif_img:compression_type> <mmcif_img:encoding_type>signed 32-bit integer</mmcif_img:encoding_type> </mmcif_img:array_structure> </mmcif_img:array_structureCategory> <mmcif_img:array_dataCategory> <mmcif_img:array_data array_id="ARRAY1" binary_id="1"> <mmcif_img:data> --CIF-BINARY-FORMAT-SECTION-- Content-Type: application/octet-stream; conversions=&quot;X-CBF_PACKED&quot; Content-Transfer-Encoding: BASE64 X-Binary-Size: 3801324 X-Binary-ID: 1 X-Binary-Element-Type: &quot;signed 32-bit integer&quot; Content-MD5: 07lZFvF+aOcW85IN7usl8A== AABRAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAZBQSr1sKNBOeOe9HITdMdDUnbq7bg ... 8REo6TtBrxJ1vKqAvx9YDMD6J18Qg83OMr/tgssjMIJMXATDsZobL90AEXc4KigE --CIF-BINARY-FORMAT-SECTION----</mmcif_img:data> </mmcif_img:array_data> </mmcif_img:array_dataCategory> The date and time of the end of the scan. Note that this may be an estimate generated during the scan, before the precise time of the end of the scan is known. The date and time of the start of the scan. The value of this data item is the identifier of the last frame in the scan. This item is a pointer to attribute id in category diffrn_data_frame in the DIFFRN_DATA_FRAME category. The value of this data item is the identifier of the first frame in the scan. This item is a pointer to attribute id in category diffrn_data_frame in the DIFFRN_DATA_FRAME category. The value of this data item is the number of frames in the scan. Approximate average time in seconds to integrate each step of the scan. The precise time for integration of each particular step must be provided in attribute integration_time in category diffrn_scan_frame, even if all steps have the same integration time. Approximate average time in seconds between the start of each step of the scan. The precise start-to-start time increment of each particular step may be provided in attribute time_period in category diffrn_scan_frame. Approximate average time in seconds between the end of integration of each step of the scan than the start of integration of the next step. In general, this will agree with attribute time_rstrt_incr in category diffrn_scan_frame. The sum of the values of attribute integration_time in category diffrn_scan_frame and attribute time_rstrt_incr in category diffrn_scan_frame is the time from the start of integration of one frame and the start of integration for the next frame and should equal the value of attribute time_period in category diffrn_scan_frame for this frame. If the individual frame values vary, then the value of attribute time_rstrt_incr in category diffrn_scan will be representative of the ensemble of values of attribute time_rstrt_incr in category diffrn_scan_frame_axis (e.g. the mean). The value of attribute id in category diffrn_scan uniquely identifies each scan. The identifier is used to tie together all the information about the scan. The value of attribute variant in category diffrn_scan gives the variant to which the given DIFFRN_SCAN row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_SCAN_AXIS category describe the settings of axes for particular scans. Unspecified axes are assumed to be at their zero points. The increment for each step for the specified axis in degrees. In general, this will agree with attribute angle_increment in category diffrn_scan_frame_axis. The sum of the values of attribute angle in category diffrn_scan_frame_axis and attribute angle_increment in category diffrn_scan_frame_axis is the angular setting of the axis at the end of the integration time for a given frame. If the individual frame values vary, then the value of attribute angle_increment in category diffrn_scan_axis will be representative of the ensemble of values of attribute angle_increment in category diffrn_scan_frame_axis (e.g. the mean). The range from the starting position for the specified axis in degrees. The increment after each step for the specified axis in degrees. In general, this will agree with attribute angle_rstrt_incr in category diffrn_scan_frame_axis. The sum of the values of attribute angle, in category diffrn_scan_frame_axis attribute angle_increment in category diffrn_scan_frame_axis and attribute angle_rstrt_incr in category diffrn_scan_frame_axis is the angular setting of the axis at the start of the integration time for the next frame relative to a given frame and should equal attribute angle in category diffrn_scan_frame_axis for this next frame. If the individual frame values vary, then the value of attribute angle_rstrt_incr in category diffrn_scan_axis will be representative of the ensemble of values of attribute angle_rstrt_incr in category diffrn_scan_frame_axis (e.g. the mean). The starting position for the specified axis in degrees. The increment for each step for the specified axis in millimetres. In general, this will agree with attribute displacement_increment. in category diffrn_scan_frame_axis The sum of the values of attribute displacement in category diffrn_scan_frame_axis and attribute displacement_increment in category diffrn_scan_frame_axis is the angular setting of the axis at the end of the integration time for a given frame. If the individual frame values vary, then the value of attribute displacement_increment in category diffrn_scan_axis will be representative of the ensemble of values of attribute displacement_increment in category diffrn_scan_frame_axis (e.g. the mean). The range from the starting position for the specified axis in millimetres. The increment for each step for the specified axis in millimetres. In general, this will agree with attribute displacement_rstrt_incr. in category diffrn_scan_frame_axis The sum of the values of attribute displacement, in category diffrn_scan_frame_axis attribute displacement_increment in category diffrn_scan_frame_axis and attribute displacement_rstrt_incr in category diffrn_scan_frame_axis is the angular setting of the axis at the start of the integration time for the next frame relative to a given frame and should equal attribute displacement in category diffrn_scan_frame_axis for this next frame. If the individual frame values vary, then the value of attribute displacement_rstrt_incr in category diffrn_scan_axis will be representative of the ensemble of values of attribute displacement_rstrt_incr in category diffrn_scan_frame_axis (e.g. the mean). The starting position for the specified axis in millimetres. The setting of the specified axis in degrees against which measurements of the reference beam center and reference detector distance should be made. In general, this will agree with attribute reference_angle. in category diffrn_scan_frame_axis If the individual frame values vary, then the value of attribute reference_angle in category diffrn_scan_axis will be representative of the ensemble of values of attribute reference_angle in category diffrn_scan_frame_axis (e.g. the mean). If not specified, the value defaults to zero. The setting of the specified axis in millimetres against which measurements of the reference beam center and reference detector distance should be made. In general, this will agree with attribute reference_displacement. in category diffrn_scan_frame_axis If the individual frame values vary, then the value of attribute reference_displacement in category diffrn_scan_axis will be representative of the ensemble of values of attribute reference_displacement in category diffrn_scan_frame_axis (e.g. the mean). The value of this data item is the identifier of one of the axes for the scan for which settings are being specified. Multiple axes may be specified for the same value of attribute id. in category diffrn_scan This item is a pointer to attribute id in category axis in the AXIS category. The value of this data item is the identifier of the scan for which axis settings are being specified. Multiple axes may be specified for the same value of attribute id. in category diffrn_scan This item is a pointer to attribute id in category diffrn_scan in the DIFFRN_SCAN category. The value of attribute variant in category diffrn_scan_axis gives the variant to which the given DIFFRN_SCAN_AXIS row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_SCAN_FRAME category describe the relationships of particular frames to scans. The date and time of the start of the frame being scanned. The value of this data item is the number of the frame within the scan, starting with 1. It is not necessarily the same as the value of attribute frame_id, in category diffrn_scan_frame but it may be. The time in seconds to integrate this step of the scan. This should be the precise time of integration of each particular frame. The value of this data item should be given explicitly for each frame and not inferred from the value of attribute integration_time in category diffrn_scan. Ip+In, where where Ip is the intensity (amplitude squared) of the electric vector in the plane of polarization and In is the intensity (amplitude squared) of the electric vector in the plane of the normal to the plane of polarization. This is an average or other representative sample of the frame. This is the first of the Stokes polarization parameters, I, Q, U, V (also known as I, M, C, S). See H. H. Berry, G. Gabrielse, A. E. Livingston (1977), "Measurement of the Stokes parameters of Light", Applied Optics, 16:12, 3200 -- 3205. If the absolute intensity is not known, the value 1. is assumed for I, and all 4 Stokes parameters are dimensionless. When the absolute intensity is known, all 4 Stokes parameters are in units of Watts per square meter. (Ip-In)*cos(2*theta), where where Ip is the intensity (amplitude squared) of the electric vector in the plane of polarization, In is the intensity (amplitude squared) of the electric vector in the plane of the normal to the plane of polarization, and theta is the angle as viewed from the specimen, between the normal to the polarization plane and the laboratory Y axis as defined in the AXIS category. This is an average or other representative sample of the frame. This is the second of the Stokes polarization parameters, I, Q, U, V (also known as I, M, C, S). See H. H. Berry, G. Gabrielse, A. E. Livingston (1977), "Measurement of the Stokes parameters of Light", Applied Optics, 16:12, 3200 -- 3205. If the absolute intensity is not known, the value 1. is assumed for I, and all 4 Stokes parameters are dimensionless. When the absolute intensity is known, all 4 Stokes parameters are in units of Watts per square meter. (Ip-In)*sin(2*theta), where where Ip is the intensity (amplitude squared) of the electric vector in the plane of polarization, In is the intensity (amplitude squared) of the electric vector in the plane of the normal to the plane of polarization, and theta is the angle as viewed from the specimen, between the normal to the polarization plane and the laboratory Y axis as defined in the AXIS category. This is an average or other representative sample of the frame. This is the third of the Stokes polarization parameters, I, Q, U, V (also known as I, M, C, S). See H. H. Berry, G. Gabrielse, A. E. Livingston (1977), "Measurement of the Stokes parameters of Light", Applied Optics, 16:12, 3200 -- 3205. If the absolute intensity is not known, the value 1. is assumed for I, and all 4 Stokes parameters are dimensionless. When the absolute intensity is known, all 4 Stokes parameters are in units of Watts per square meter. +/-sqrt(IpIn), with a + sign for right-handed circular polarization, where where Ip is the intensity (amplitude squared) of the electric vector in the plane of polarization and In is the intensity (amplitude squared) of the electric vector in the plane of the normal to the plane of polarization, and theta is the angle as viewed from the specimen, between the normal to the polarization plane and the laboratory Y axis as defined in the AXIS category. This is an average or other representative sample of the frame. This is the fourth of the Stokes polarization parameters, I, Q, U, V (also known as I, M, C, S). See H. H. Berry, G. Gabrielse, A. E. Livingston (1977), "Measurement of the Stokes parameters of Light", Applied Optics, 16:12, 3200 -- 3205. If the absolute intensity is not known, the value 1. is assumed for I, and all 4 Stokes parameters are dimensionless. When the absolute intensity is known, all 4 Stokes parameters are in units of Watts per square meter. The time in seconds between the start of this frame and the start of the next frame, if any. If there is no next frame, a null value should be given. The time in seconds between the end of integration of this step of the scan and the start of integration of the next step. The sum of the values of attribute integration_time in category diffrn_scan_frame and attribute time_rstrt_incr in category diffrn_scan_frame is the time from the start of integration of one frame and the start of integration for the next frame and should equal the value of attribute time_period in category diffrn_scan_frame for this frame. The value of attribute time_rstrt_incr in category diffrn_scan will be representative of the ensemble of values of attribute time_rstrt_incr in category diffrn_scan_frame_axis (e.g. the mean). If there is no next frame, a null value should be given. The value of this data item is the identifier of the frame being examined. This item is a pointer to attribute id in category diffrn_data_frame in the DIFFRN_DATA_FRAME category. The value of attribute scan_id in category diffrn_scan_frame identifies the scan containing this frame. This item is a pointer to attribute id in category diffrn_scan in the DIFFRN_SCAN category. The value of attribute variant in category diffrn_scan_frame gives the variant to which the given DIFFRN_SCAN_FRAME row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_SCAN_FRAME_AXIS category describe the settings of axes for particular frames. Unspecified axes are assumed to be at their zero points. If, for any given frame, nonzero values apply for any of the data items in this category, those values should be given explicitly in this category and not simply inferred from values in DIFFRN_SCAN_AXIS. The setting of the specified axis in degrees for this frame. This is the setting at the start of the integration time. The increment for this frame for the angular setting of the specified axis in degrees. The sum of the values of attribute angle in category diffrn_scan_frame_axis and attribute angle_increment in category diffrn_scan_frame_axis is the angular setting of the axis at the end of the integration time for this frame. The increment after this frame for the angular setting of the specified axis in degrees. The sum of the values of attribute angle, in category diffrn_scan_frame_axis attribute angle_increment in category diffrn_scan_frame_axis and attribute angle_rstrt_incr in category diffrn_scan_frame_axis is the angular setting of the axis at the start of the integration time for the next frame and should equal attribute angle in category diffrn_scan_frame_axis for this next frame. The setting of the specified axis in millimetres for this frame. This is the setting at the start of the integration time. The increment for this frame for the displacement setting of the specified axis in millimetres. The sum of the values of attribute displacement in category diffrn_scan_frame_axis and attribute displacement_increment in category diffrn_scan_frame_axis is the angular setting of the axis at the end of the integration time for this frame. The increment for this frame for the displacement setting of the specified axis in millimetres. The sum of the values of attribute displacement, in category diffrn_scan_frame_axis attribute displacement_increment in category diffrn_scan_frame_axis and attribute displacement_rstrt_incr in category diffrn_scan_frame_axis is the angular setting of the axis at the start of the integration time for the next frame and should equal attribute displacement in category diffrn_scan_frame_axis for this next frame. The setting of the specified axis in degrees against which measurements of the reference beam center and reference detector distance should be made. This is normally the same for all frames, but the option is provided here of making changes when needed. If not provided, it is assumed to be zero. The setting of the specified axis in millimetres for this frame against which measurements of the reference beam center and reference detector distance should be made. This is normally the same for all frames, but the option is provided here of making changes when needed. If not provided, it is assumed to be equal to attribute displacement in category diffrn_scan_frame_axis. The value of this data item is the identifier of one of the axes for the frame for which settings are being specified. Multiple axes may be specified for the same value of attribute frame_id. in category diffrn_scan_frame This item is a pointer to attribute id in category axis in the AXIS category. The value of this data item is the identifier of the frame for which axis settings are being specified. Multiple axes may be specified for the same value of attribute frame_id. in category diffrn_scan_frame This item is a pointer to attribute id in category diffrn_data_frame in the DIFFRN_DATA_FRAME category. The value of attribute variant in category diffrn_scan_frame_axis gives the variant to which the given DIFFRN_SCAN_FRAME_AXIS row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the DIFFRN_SCAN_FRAME_MONITOR category record the values and details about each monitor for each frame of data during a scan. Each monitor value is uniquely identified by the combination of the scan_id given by attribute scan_id in category diffrn_scan_frame the frame_id given by attribute frame_id, in category diffrn_scan_frame_monitor the monitor's detector_id given by attribute detector_id, in category diffrn_scan_frame_monitor and a 1-based ordinal given by attribute id. in category diffrn_scan_frame_monitor If there is only one frame for the scan, the value of attribute frame_id in category diffrn_scan_frame_monitor may be omitted. A single frame may have more than one monitor value, and each monitor value may be the result of integration over the entire frame integration time given by the value of attribute integration_time in category diffrn_scan_frame or many monitor values may be reported over shorter times given by the value of attribute integration_time in category diffrn_scan_frame_monitor. If only one monitor value for a given monitor is collected during the integration time of the frame, the value of attribute id in category diffrn_scan_frame_monitor may be omitted. Example 1 - The beam intensity for frame FRAME1 is being tracked by a beamstop monitor detector BSM01, made from metal foil and a PIN diode, locate 20 mm in front of a MAR345 detector and being sampled every 2 seconds in a 20 second scan. <mmcif_img:diffrn_detectorCategory> <mmcif_img:diffrn_detector diffrn_id="P6MB" id="MAR345-SN26"> <mmcif_img:number_of_axes>4</mmcif_img:number_of_axes> <mmcif_img:type>MAR 345</mmcif_img:type> </mmcif_img:diffrn_detector> <mmcif_img:diffrn_detector diffrn_id="P6MB" id="BSM01"> <mmcif_img:number_of_axes>1</mmcif_img:number_of_axes> <mmcif_img:type>metal foil and PIN diode</mmcif_img:type> </mmcif_img:diffrn_detector> </mmcif_img:diffrn_detectorCategory> <mmcif_img:diffrn_detector_axisCategory> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_X" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_Y" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_Z" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="DETECTOR_PITCH" detector_id="MAR345-SN26"> </mmcif_img:diffrn_detector_axis> <mmcif_img:diffrn_detector_axis axis_id="MONITOR_Z" detector_id="BSM01"> </mmcif_img:diffrn_detector_axis> </mmcif_img:diffrn_detector_axisCategory> <mmcif_img:diffrn_data_frameCategory> <mmcif_img:diffrn_data_frame detector_element_id="ELEMENT1" id="FRAME1"> <mmcif_img:array_id>ARRAY1</mmcif_img:array_id> <mmcif_img:binary_id>1</mmcif_img:binary_id> </mmcif_img:diffrn_data_frame> </mmcif_img:diffrn_data_frameCategory> <mmcif_img:diffrn_scanCategory> <mmcif_img:diffrn_scan id="SCAN1"> <mmcif_img:frame_id_end>FRAME1</mmcif_img:frame_id_end> <mmcif_img:frame_id_start>FRAME1</mmcif_img:frame_id_start> <mmcif_img:frames>1</mmcif_img:frames> </mmcif_img:diffrn_scan> </mmcif_img:diffrn_scanCategory> <mmcif_img:diffrn_scan_axisCategory> <mmcif_img:diffrn_scan_axis axis_id="GONIOMETER_OMEGA" scan_id="SCAN1"> <mmcif_img:angle_increment>1.0</mmcif_img:angle_increment> <mmcif_img:angle_range>1.0</mmcif_img:angle_range> <mmcif_img:angle_start>12.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="GONIOMETER_KAPPA" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>23.3</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="GONIOMETER_PHI" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>-165.8</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_Z" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>-240.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_Y" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.6</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_X" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>-0.5</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="DETECTOR_PITCH" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>0.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> <mmcif_img:diffrn_scan_axis axis_id="MONITOR_Z" scan_id="SCAN1"> <mmcif_img:angle_increment>0.0</mmcif_img:angle_increment> <mmcif_img:angle_range>0.0</mmcif_img:angle_range> <mmcif_img:angle_start>0.0</mmcif_img:angle_start> <mmcif_img:displacement_increment>0.0</mmcif_img:displacement_increment> <mmcif_img:displacement_range>0.0</mmcif_img:displacement_range> <mmcif_img:displacement_start>-220.0</mmcif_img:displacement_start> </mmcif_img:diffrn_scan_axis> </mmcif_img:diffrn_scan_axisCategory> <mmcif_img:diffrn_scan_frameCategory> <mmcif_img:diffrn_scan_frame frame_id="FRAME1" scan_id="SCAN1"> <mmcif_img:date>1997-12-04T10:23:48</mmcif_img:date> <mmcif_img:frame_number>1</mmcif_img:frame_number> <mmcif_img:integration_time>20.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame> </mmcif_img:diffrn_scan_frameCategory> <mmcif_img:diffrn_scan_frame_monitorCategory> <mmcif_img:diffrn_scan_frame_monitor detector_id="BSM01" frame_id="FRAME1" id="1" scan_id="SCAN1"> <mmcif_img:integration_time>2.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame_monitor> <mmcif_img:diffrn_scan_frame_monitor detector_id="BSM01" frame_id="FRAME1" id="2" scan_id="SCAN1"> <mmcif_img:integration_time>2.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame_monitor> <mmcif_img:diffrn_scan_frame_monitor detector_id="BSM01" frame_id="FRAME1" id="3" scan_id="SCAN1"> <mmcif_img:integration_time>2.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame_monitor> <mmcif_img:diffrn_scan_frame_monitor detector_id="BSM01" frame_id="FRAME1" id="4" scan_id="SCAN1"> <mmcif_img:integration_time>2.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame_monitor> <mmcif_img:diffrn_scan_frame_monitor detector_id="BSM01" frame_id="FRAME1" id="5" scan_id="SCAN1"> <mmcif_img:integration_time>2.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame_monitor> <mmcif_img:diffrn_scan_frame_monitor detector_id="BSM01" frame_id="FRAME1" id="6" scan_id="SCAN1"> <mmcif_img:integration_time>2.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame_monitor> <mmcif_img:diffrn_scan_frame_monitor detector_id="BSM01" frame_id="FRAME1" id="7" scan_id="SCAN1"> <mmcif_img:integration_time>2.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame_monitor> <mmcif_img:diffrn_scan_frame_monitor detector_id="BSM01" frame_id="FRAME1" id="8" scan_id="SCAN1"> <mmcif_img:integration_time>2.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame_monitor> <mmcif_img:diffrn_scan_frame_monitor detector_id="BSM01" frame_id="FRAME1" id="9" scan_id="SCAN1"> <mmcif_img:integration_time>2.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame_monitor> <mmcif_img:diffrn_scan_frame_monitor detector_id="BSM01" frame_id="FRAME1" id="10" scan_id="SCAN1"> <mmcif_img:integration_time>2.0</mmcif_img:integration_time> </mmcif_img:diffrn_scan_frame_monitor> </mmcif_img:diffrn_scan_frame_monitorCategory> <mmcif_img:diffrn_scan_frame_axisCategory> <mmcif_img:diffrn_scan_frame_axis axis_id="GONIOMETER_OMEGA" frame_id="FRAME1"> <mmcif_img:angle>12.0</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="GONIOMETER_KAPPA" frame_id="FRAME1"> <mmcif_img:angle>23.3</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="GONIOMETER_PHI" frame_id="FRAME1"> <mmcif_img:angle>-165.8</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_Z" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>-240.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_Y" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>0.6</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_X" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>-0.5</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="DETECTOR_PITCH" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>0.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> <mmcif_img:diffrn_scan_frame_axis axis_id="MONITOR_Z" frame_id="FRAME1"> <mmcif_img:angle>0.0</mmcif_img:angle> <mmcif_img:displacement>-220.0</mmcif_img:displacement> </mmcif_img:diffrn_scan_frame_axis> </mmcif_img:diffrn_scan_frame_axisCategory> <mmcif_img:axisCategory> <mmcif_img:axis equipment="goniometer" id="GONIOMETER_OMEGA"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="goniometer" id="GONIOMETER_KAPPA"> <mmcif_img:depends_on>GONIOMETER_OMEGA</mmcif_img:depends_on> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0.64279</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0.76604</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="goniometer" id="GONIOMETER_PHI"> <mmcif_img:depends_on>GONIOMETER_KAPPA</mmcif_img:depends_on> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="source" id="SOURCE"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>general</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="gravity" id="GRAVITY"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1 xsi:nil="true" /> <mmcif_img:offset2 xsi:nil="true" /> <mmcif_img:offset3 xsi:nil="true" /> <mmcif_img:type>general</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>-1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_Z"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_Y"> <mmcif_img:depends_on>DETECTOR_Z</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_X"> <mmcif_img:depends_on>DETECTOR_Y</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="DETECTOR_PITCH"> <mmcif_img:depends_on>DETECTOR_X</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>rotation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="ELEMENT_X"> <mmcif_img:depends_on>DETECTOR_PITCH</mmcif_img:depends_on> <mmcif_img:offset1>172.43</mmcif_img:offset1> <mmcif_img:offset2>-172.43</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>1</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="ELEMENT_Y"> <mmcif_img:depends_on>ELEMENT_X</mmcif_img:depends_on> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>1</mmcif_img:vector2> <mmcif_img:vector3>0</mmcif_img:vector3> </mmcif_img:axis> <mmcif_img:axis equipment="detector" id="MONITOR_Z"> <mmcif_img:depends_on xsi:nil="true" /> <mmcif_img:offset1>0</mmcif_img:offset1> <mmcif_img:offset2>0</mmcif_img:offset2> <mmcif_img:offset3>0</mmcif_img:offset3> <mmcif_img:type>translation</mmcif_img:type> <mmcif_img:vector1>0</mmcif_img:vector1> <mmcif_img:vector2>0</mmcif_img:vector2> <mmcif_img:vector3>1</mmcif_img:vector3> </mmcif_img:axis> </mmcif_img:axisCategory> The precise time for integration of the monitor value given in attribute value in category diffrn_scan_frame_monitor must be given in attribute integration_time in category diffrn_scan_frame_monitor. The value reported by the monitor detector should be given in attribute value. in category diffrn_scan_frame_monitor The value is typed as float to allow of monitors for very intense beams that cannot report all digits, but when available, all digits of the monitor should be recorded. This data item is a pointer to attribute id in category diffrn_detector in the DIFFRN_DETECTOR category. This item is a pointer to attribute id in category diffrn_data_frame in the DIFFRN_DATA_FRAME category. This item is an integer identifier which, along with attribute detector_id, in category diffrn_scan_frame_monitor attribute scan_id in category diffrn_scan_frame_monitor, and attribute frame_id in category diffrn_scan_frame_monitor should uniquely identify the monitor value being recorded If attribute binary_id in category array_data is not explicitly given, it defaults to 1. This item is a pointer to attribute id in category diffrn_scan in the DIFFRN_SCAN category. The value of attribute variant in category diffrn_scan_frame_monitor gives the variant to which the given DIFFRN_SCAN_FRAME_MONITOR row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the MAP category record the details of a maps. Maps record values of parameters, such as density, that are functions of position within a cell or are functions of orthogonal coordinates in three space. A map may is composed of one or more map segments specified in the MAP_SEGMENT category. Examples are given in the MAP_SEGMENT category. Example 1 - Identifying an observed density map and a calculated density map <mmcif_img:mapCategory> <mmcif_img:map id="rho_calc"> <mmcif_img:details> density calculated from F_calc derived from the ATOM_SITE list</mmcif_img:details> </mmcif_img:map> <mmcif_img:map id="rho_obs"> <mmcif_img:details> density combining the observed structure factors with the calculated phases</mmcif_img:details> </mmcif_img:map> </mmcif_img:mapCategory> The value of attribute details in category map should give a description of special aspects of each map. loop_ _map.id _map.details rho_calc ; density calculated from F_calc derived from the ATOM_SITE list ; rho_obs ; density combining the observed structure factors with the calculated phases ; Example 1 - Identifying an observed density map and a calculated density map This item is a pointer to attribute id in category diffrn in the DIFFRN category. This item is a pointer to attribute id in category entry in the ENTRY category. The value of attribute id in category map must uniquely identify each map for the given diffrn.id or entry.id. The value of attribute variant in category map gives the variant to which the given map row is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the MAP_SEGMENT category record the details about each segment (section or brick) of a map. Example 1 - Identifying an observed density map and a calculated density map, each consisting of one segment, both using the same array structure and mask. <mmcif_img:mapCategory> <mmcif_img:map id="rho_calc"> <mmcif_img:details> density calculated from F_calc derived from the ATOM_SITE list</mmcif_img:details> </mmcif_img:map> <mmcif_img:map id="rho_obs"> <mmcif_img:details> density combining the observed structure factors with the calculated phases</mmcif_img:details> </mmcif_img:map> </mmcif_img:mapCategory> <mmcif_img:map_segmentCategory> <mmcif_img:map_segment id="rho_calc" map_id="rho_calc"> <mmcif_img:array_id>map_structure</mmcif_img:array_id> <mmcif_img:binary_id>1</mmcif_img:binary_id> <mmcif_img:mask_array_id>mask_structure</mmcif_img:mask_array_id> <mmcif_img:mask_binary_id>1</mmcif_img:mask_binary_id> </mmcif_img:map_segment> <mmcif_img:map_segment id="rho_obs" map_id="rho_obs"> <mmcif_img:array_id>map_structure</mmcif_img:array_id> <mmcif_img:binary_id>2</mmcif_img:binary_id> <mmcif_img:mask_array_id>mask_structure</mmcif_img:mask_array_id> <mmcif_img:mask_binary_id>1</mmcif_img:mask_binary_id> </mmcif_img:map_segment> </mmcif_img:map_segmentCategory> The value of attribute array_id in category map_segment identifies the array structure into which the map is organized. This item is a pointer to attribute id in category array_structure in the ARRAY_STRUCTURE category. This item is a pointer to attribute id in category array_structure_list_section in the a href="#array_structure_list_section">"ARRAY_STRUCTURE_LIST_SECTION category. The value of attribute binary_id in category map_segment distinguishes the particular set of data organized according to attribute array_id in category map_segment in which the data values of the map are stored. This item is a pointer to attribute binary_id in category array_data in the ARRAY_DATA category. The value of attribute details in category map_segment should give a description of special aspects of each segment of a map. Example to be provided The value of attribute mask_array_id in category map_segment, if given, the array structure into which the mask for the map is organized. If no value is given, then all elements of the map are valid. If a value is given, then only elements of the map for which the corresponding element of the mask is non-zero are valid. The value of attribute mask_array_id in category map_segment differs from the value of attribute array_id in category map_segment in order to permit the mask to be given as, say, unsigned 8-bit integers, while the map is given as a data type with more range. However, the two array structures must be aligned, using the same axes in the same order with the same displacements and increments This item is a pointer to attribute id in category array_structure in the ARRAY_STRUCTURE category. The value of attribute mask_binary_id in category map_segment identifies the particular set of data organized according to attribute mask_array_id in category map_segment specifying the mask for the map. This item is a pointer to attribute binary_id in category array_data in the ARRAY_DATA category. The value of attribute id in category map_segment must uniquely identify each segment of a map. This item is a pointer to attribute id in category map in the MAP category. The value of attribute variant in category map_segment gives the variant to which the given map segment is related. If this value is not given, the variant is assumed to the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. Data items in the VARIANT category record the details about sets of variants of data items. There is sometimes a need to allow for multiple versions of the same data items in order to allow for refinements and corrections to earlier assumptions, observations and calculations. In order to allow data sets to contain more than one variant of the same information, an optional ...variant data item as a pointer to attribute variant in category variant has been added to the key of every category, as an implicit data item with a null (empty) default value. All rows in a category with the same variant value are considered to be related to one another and to all rows in other categories with the same variant value. For a given variant, all such rows are also considered to be related to all rows with a null variant value, except that a row with a null variant value is for which all other components of its key are identical to those entries in another row with a non-null variant value is not related the the rows with that non-null variant value. This behavior is similar to the convention for identifying alternate conformers in an atom list. An optional role may be specified for a variant as the value of attribute role in category variant. Possible roles are null, "preferred", "raw data", "unsuccessful trial". variants may carry an optional timestamp as the value of attribute timestamp. in category variant variants may be related to other variants from which they were derived by the value of attribute variant_of in category variant Further details about the variant may be specified as the value of attribute details. in category variant In order to allow variant information from multiple datasets to be combined, _variant.diffrn_id and/or _variant.entry_id may be used. Example 1 - Distinguishing between a raw beam center and a refined beam center inferred after indexing. Detector d1 is composed of four CCD detector elements, each 200 mm by 200 mm, arranged in a square, in the pattern 1 2 * 3 4 Note that the beam centre is slightly displaced from each of the detector elements, just beyond the lower right corner of 1, the lower left corner of 2, the upper right corner of 3 and the upper left corner of 4. For each element, the detector face coordiate system, is assumed to have the fast axis running from left to right and the slow axis running from top to bottom with the origin at the top left corner. After indexing and refinement, the center is shifted by .2 mm left and .1 mm down. <mmcif_img:variantCategory> <mmcif_img:variant variant="indexed"> <mmcif_img:details>indexed cell and refined beam center</mmcif_img:details> <mmcif_img:role>preferred</mmcif_img:role> <mmcif_img:timestamp>2007-08-04T01:17:28</mmcif_img:timestamp> <mmcif_img:variant_of xsi:nil="true" /> </mmcif_img:variant> </mmcif_img:variantCategory> <mmcif_img:diffrn_detector_elementCategory> <mmcif_img:diffrn_detector_element detector_id="d1" id="d1_ccd_1" variant="indexed"> <mmcif_img:reference_center_fast>201.3</mmcif_img:reference_center_fast> <mmcif_img:reference_center_slow>201.6</mmcif_img:reference_center_slow> <mmcif_img:reference_center_units>mm</mmcif_img:reference_center_units> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="d1" id="d1_ccd_2" variant="indexed"> <mmcif_img:reference_center_fast>-2.0</mmcif_img:reference_center_fast> <mmcif_img:reference_center_slow>201.6</mmcif_img:reference_center_slow> <mmcif_img:reference_center_units>mm</mmcif_img:reference_center_units> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="d1" id="d1_ccd_3" variant="indexed"> <mmcif_img:reference_center_fast>201.3</mmcif_img:reference_center_fast> <mmcif_img:reference_center_slow>-1.5</mmcif_img:reference_center_slow> <mmcif_img:reference_center_units>mm</mmcif_img:reference_center_units> </mmcif_img:diffrn_detector_element> <mmcif_img:diffrn_detector_element detector_id="d1" id="d1_ccd_4" variant="indexed"> <mmcif_img:reference_center_fast>-1.9</mmcif_img:reference_center_fast> <mmcif_img:reference_center_slow>-1.6</mmcif_img:reference_center_slow> <mmcif_img:reference_center_units>mm</mmcif_img:reference_center_units> </mmcif_img:diffrn_detector_element> </mmcif_img:diffrn_detector_elementCategory> A description of special aspects of the variant. indexed cell and refined beam center The value of attribute role in category variant specified a role for this variant. Possible roles are null, "preferred", "raw data", and "unsuccessful trial". A null value for attribute role in category variant leaves the precise role of the variant unspecified. No inference should be made that the variant with the latest time stamp is preferred. The date and time identifying a variant. This is not necessarily the precise time of the measurement or calculation of the individual related data items, but a timestamp that reflects the order in which the variants were defined. The value of attribute variant_of in category variant gives the variant from which this variant was derived. If this value is not given, the variant is assumed to be derived from the default null variant. This item is a pointer to attribute variant in category variant in the VARIANT category. This item is a pointer to attribute id in category diffrn in the diffrn category. This item is a pointer to attribute id in category entry in the entry category The value of attribute variant in category variant must uniquely identify each variant for the given diffraction experiment and/or entry This item has been made implicit and given a default value of null.