Beamline notes: Difference between revisions
Jump to navigation
Jump to search
No edit summary |
No edit summary |
||
(6 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
This article is meant to collect information about specific beamlines. | This article is meant to collect information about specific beamlines. | ||
* Taiwanese synchrotron (ADSC Q315R, SN 930), 2015 : ROTATION_AXIS=1 0 0 whereas in 2010 it was -1 0 0 | * Taiwanese synchrotron (ADSC Q315R, SN 930), 2015 : ROTATION_AXIS=1 0 0 whereas in 2010 it was -1 0 0 | ||
* BM14 (ESRF; Mar CCD, as of April 2014) has X and Y reversed in the header. [[Generate_XDS.INP]] | * BM14 (ESRF; Mar CCD, as of April 2014) has X and Y reversed in the header. [[Generate_XDS.INP]] implements this reversal since version 0.75 . | ||
* BM30A (ESRF, ADSC) has ROTATION_AXIS=-1 0 0 (implemented in [[generate_XDS.INP]] on 2016-10-02) | * BM30A (ESRF, ADSC) has ROTATION_AXIS=-1 0 0 (implemented in [[generate_XDS.INP]] on 2016-10-02) | ||
* Diamond I24 (PILATUS3 6M, S/N 60-0119) moved from horizontal to vertical spindle for cryo data collection. If the CBF header has | * Diamond I24 (PILATUS3 6M, S/N 60-0119) moved from horizontal to vertical spindle for cryo data collection. If the CBF header has <code># Oscillation_axis X.CW +SLOW</code> then one needs ROTATION_AXIS=0 -1 0 . Supported by [[generate_XDS.INP]] since version 0.70 . | ||
* PETRA P14 also needs ROTATION_AXIS=0 -1 0 | * PETRA P14 also needs ROTATION_AXIS=0 -1 0 . This is implemented in [[generate_XDS.INP]] since version 1.00 . | ||
* ALS 8.2.2 recent (Nov 2015) evidence indicates that the same beam center convention is used as for ESRF, PF, APS Argonne BLs. | * ALS 8.2.2 recent (Nov 2015) evidence indicates that the same beam center convention is used as for ESRF, PF, APS Argonne BLs. | ||
* Shanghai synchrotron Radiation Facility | * Shanghai synchrotron Radiation Facility BL19U-1 needs ROTATION_AXIS=-1 0 0. This is implemented in [[generate_XDS.INP]] since version 0.87. | ||
* Brazil's MX2 beamline at LNLS needs ROTATION_AXIS=-1 0 0 (since May 18, 2017 - before that it was 1 0 0). [[generate_XDS.INP]] implements this. | |||
* Detector number 458 is an ADSC that was operated in 2014 with 3072*3072 pixels and ROTATION_AXIS=-1 0 0 at APS-19ID but in 2018 appears to be operated with 2048*2048 pixels and ROTATION_AXIS=1 0 0 at APS-BM19 | |||
GlobalPhasing's notes are at http://www.globalphasing.com/autoproc/wiki/index.cgi?BeamlineSettings . |
Latest revision as of 17:13, 7 December 2020
This article is meant to collect information about specific beamlines.
- Taiwanese synchrotron (ADSC Q315R, SN 930), 2015 : ROTATION_AXIS=1 0 0 whereas in 2010 it was -1 0 0
- BM14 (ESRF; Mar CCD, as of April 2014) has X and Y reversed in the header. Generate_XDS.INP implements this reversal since version 0.75 .
- BM30A (ESRF, ADSC) has ROTATION_AXIS=-1 0 0 (implemented in generate_XDS.INP on 2016-10-02)
- Diamond I24 (PILATUS3 6M, S/N 60-0119) moved from horizontal to vertical spindle for cryo data collection. If the CBF header has
# Oscillation_axis X.CW +SLOW
then one needs ROTATION_AXIS=0 -1 0 . Supported by generate_XDS.INP since version 0.70 . - PETRA P14 also needs ROTATION_AXIS=0 -1 0 . This is implemented in generate_XDS.INP since version 1.00 .
- ALS 8.2.2 recent (Nov 2015) evidence indicates that the same beam center convention is used as for ESRF, PF, APS Argonne BLs.
- Shanghai synchrotron Radiation Facility BL19U-1 needs ROTATION_AXIS=-1 0 0. This is implemented in generate_XDS.INP since version 0.87.
- Brazil's MX2 beamline at LNLS needs ROTATION_AXIS=-1 0 0 (since May 18, 2017 - before that it was 1 0 0). generate_XDS.INP implements this.
- Detector number 458 is an ADSC that was operated in 2014 with 3072*3072 pixels and ROTATION_AXIS=-1 0 0 at APS-19ID but in 2018 appears to be operated with 2048*2048 pixels and ROTATION_AXIS=1 0 0 at APS-BM19
GlobalPhasing's notes are at http://www.globalphasing.com/autoproc/wiki/index.cgi?BeamlineSettings .