##NXDICT-1.0 #---------------------------------------------------------------------------- # NeXus dictionary file for the SINQ instrument AMOR # # DO NOT EDIT WHEN YOU DO NOT KNOW WHAT YOU ARE DOING! # This file determines the placement of data items in the AMOR NeXus # data file. Your data may not be readable if this file is messed up. # # Mark Koennecke, September 1999 #---------------------------------------------------------------------------- # AMOR may have variable time binning. In order # to cope with that, we use NXDICT's text replacement feature and define # these things timebin=512 detxsize=255 detysize=128 scanlength = 10 chunk = #---------- NXentry level etitle=/entry1,NXentry/SDS title -type DFNT_CHAR -rank 1 -dim {132} estart=/entry1,NXentry/SDS start_time -type DFNT_CHAR -rank 1 -dim {132} eend=/entry1,NXentry/SDS end_time -type DFNT_CHAR -rank 1 -dim {132} #----------------- NXinstrument iname=/entry1,NXentry/reflectometer,NXinstrument/SDS name -type DFNT_CHAR \ -rank 1 -dim {132} #----------------- NXsource sname=/entry1,NXentry/reflectometer,NXinstrument/SINQ,NXsource/SDS name \ -type DFNT_CHAR -rank 1 -dim {132} stype=/entry1,NXentry/reflectometer,NXinstrument/SINQ,NXsource/SDS type \ -type DFNT_CHAR -rank 1 -dim {132} #----------------- Chopper cname=/entry1,NXentry/reflectometer,NXinstrument/chopper,NXchopper/SDS name \ -type DFNT_CHAR -rank 1 -dim {132} crot=/entry1,NXentry/reflectometer,NXinstrument/chopper,NXchopper/SDS \ rotation_speed -attr {units,rpm} #---------------- frame overlap mirror fomname=/entry1,NXentry/reflectometer,NXinstrument/frame_overlap_mirror,NXfilter/SDS name \ -type DFNT_CHAR -rank 1 -dim {132} fomh=/entry1,NXentry/reflectometer,NXinstrument/frame_overlap_mirror,NXfilter/SDS \ omega_height -attr {units,mm} fomom=/entry1,NXentry/reflectometer,NXinstrument/frame_overlap_mirror,NXfilter/SDS \ omega -attr {units,degree} fodist=/entry1,NXentry/reflectometer,NXinstrument/frame_overlap_mirror,NXfilter/SDS \ distance -attr {units,mm} #-------------- first slit d1l=/entry1,NXentry/reflectometer,NXinstrument/diaphragm1,NXfilter/SDS left \ -attr {units,mm} d1r=/entry1,NXentry/reflectometer,NXinstrument/diaphragm1,NXfilter/SDS right \ -attr {units,mm} d1t=/entry1,NXentry/reflectometer,NXinstrument/diaphragm1,NXfilter/SDS top \ -attr {units,mm} d1b=/entry1,NXentry/reflectometer,NXinstrument/diaphragm1,NXfilter/SDS bottom \ -attr {units,mm} d1dist=/entry1,NXentry/reflectometer,NXinstrument/diaphragm1,NXfilter/SDS distance \ -attr {units,mm} #---------- polarizing mirror polname=/entry1,NXentry/reflectometer,NXinstrument/polarizer,NXfilter/SDS name \ -type DFNT_CHAR -rank 1 -dim {132} polz=/entry1,NXentry/reflectometer,NXinstrument/polarizer,NXfilter/SDS height \ -attr {units,mm} polzom=/entry1,NXentry/reflectometer,NXinstrument/polarizer,NXfilter/SDS omega_height \ -attr {units,mm} polom=/entry1,NXentry/reflectometer,NXinstrument/polarizer,NXfilter/SDS omega \ -attr {units,degree} poly=/entry1,NXentry/reflectometer,NXinstrument/polarizer,NXfilter/SDS y_position \ -attr {units,mm} poldist=/entry1,NXentry/reflectometer,NXinstrument/polarizer,NXfilter/SDS distance \ -attr {units,mm} #-------------- second slit d2l=/entry1,NXentry/reflectometer,NXinstrument/diaphragm2,NXfilter/SDS left \ -attr {units,mm} d2r=/entry1,NXentry/reflectometer,NXinstrument/diaphragm2,NXfilter/SDS right \ -attr {units,mm} d2t=/entry1,NXentry/reflectometer,NXinstrument/diaphragm2,NXfilter/SDS top \ -attr {units,mm} d2b=/entry1,NXentry/reflectometer,NXinstrument/diaphragm2,NXfilter/SDS bottom \ -attr {units,mm} d2dist=/entry1,NXentry/reflectometer,NXinstrument/diaphragm2,NXfilter/SDS distance \ -attr {units,mm} #-------------- third slit d3l=/entry1,NXentry/reflectometer,NXinstrument/diaphragm3,NXfilter/SDS left \ -attr {units,mm} d3r=/entry1,NXentry/reflectometer,NXinstrument/diaphragm3,NXfilter/SDS right \ -attr {units,mm} d3t=/entry1,NXentry/reflectometer,NXinstrument/diaphragm3,NXfilter/SDS top \ -attr {units,mm} d3b=/entry1,NXentry/reflectometer,NXinstrument/diaphragm3,NXfilter/SDS bottom \ -attr {units,mm} d3dist=/entry1,NXentry/reflectometer,NXinstrument/diaphragm3,NXfilter/SDS distance \ -attr {units,mm} #---------------- sample table saname=/entry1,NXentry/sample,NXsample/SDS name \ -type DFNT_CHAR -rank 1 -dim {132} baseheight=/entry1,NXentry/sample,NXsample/SDS base_height \ -attr {units,mm} somheight=/entry1,NXentry/sample,NXsample/SDS omega_height \ -attr {units,mm} schi=/entry1,NXentry/sample,NXsample/SDS chi \ -attr {units,degree} somega=/entry1,NXentry/sample,NXsample/SDS omega \ -attr {units,degree} stheight=/entry1,NXentry/sample,NXsample/SDS table_height \ -attr {units,mm} stdist=/entry1,NXentry/sample,NXsample/SDS distance \ -attr {units,mm} #------------ fourth slit d4l=/entry1,NXentry/reflectometer,NXinstrument/diaphragm4,NXfilter/SDS left \ -attr {units,mm} d4r=/entry1,NXentry/reflectometer,NXinstrument/diaphragm4,NXfilter/SDS right \ -attr {units,mm} d4t=/entry1,NXentry/reflectometer,NXinstrument/diaphragm4,NXfilter/SDS top \ -attr {units,mm} d4b=/entry1,NXentry/reflectometer,NXinstrument/diaphragm4,NXfilter/SDS bottom \ -attr {units,mm} d4dist=/entry1,NXentry/reflectometer,NXinstrument/diaphragm4,NXfilter/SDS \ distance_to_sample -attr {units,mm} d4base =/entry1,NXentry/reflectometer,NXinstrument/diaphragm4,NXfilter/SDS \ base_height -attr {units,mm} #------------ analyzer anname=/entry1,NXentry/reflectometer,NXinstrument/polarizer,NXfilter/SDS name \ -type DFNT_CHAR -rank 1 -dim {132} anoz=/entry1,NXentry/reflectometer,NXinstrument/analyzer,NXfilter/SDS omega_height \ -attr {units,mm} abase=/entry1,NXentry/reflectometer,NXinstrument/analyzer,NXfilter/SDS base_height \ -attr {units,mm} adis=/entry1,NXentry/reflectometer,NXinstrument/analyzer,NXfilter/SDS \ distance_to_sample -attr {units,mm} anom=/entry1,NXentry/reflectometer,NXinstrument/analyzer,NXfilter/SDS omega \ -attr {units,degree} antz=/entry1,NXentry/reflectometer,NXinstrument/analyzer,NXfilter/SDS height \ -attr {units,mm} andist=/entry1,NXentry/reflectometer,NXinstrument/analyzer,NXfilter/SDS distance \ -attr {units,mm} #--------------- fifth slit!! d5l=/entry1,NXentry/reflectometer,NXinstrument/diaphragm5,NXfilter/SDS left \ -attr {units,mm} d5r=/entry1,NXentry/reflectometer,NXinstrument/diaphragm5,NXfilter/SDS right \ -attr {units,mm} d5t=/entry1,NXentry/reflectometer,NXinstrument/diaphragm5,NXfilter/SDS top \ -attr {units,mm} d5b=/entry1,NXentry/reflectometer,NXinstrument/diaphragm5,NXfilter/SDS bottom \ -attr {units,mm} d5dist=/entry1,NXentry/reflectometer,NXinstrument/diaphragm5,NXfilter/SDS \ distance_to_sample -attr {units,mm} d5base =/entry1,NXentry/reflectometer,NXinstrument/diaphragm5,NXfilter/SDS \ base_height -attr {units,mm} #---------- count control cnmode=/entry1,NXentry/reflectometer,NXinstrument/counter,NXmonitor/SDS count_mode \ -type DFNT_CHAR -rank 1 -dim {30} cnpreset=/entry1,NXentry/reflectometer,NXinstrument/counter,NXmonitor/SDS preset \ -attr {units,countsOrseconds} cntime=/entry1,NXentry/reflectometer,NXinstrument/counter,NXmonitor/SDS time \ -attr {units,seconds} cnmon1=/entry1,NXentry/reflectometer,NXinstrument/counter,NXmonitor/SDS monitor1 \ -type DFNT_INT32 -attr {units,counts} cnmon2=/entry1,NXentry/reflectometer,NXinstrument/counter,NXmonitor/SDS monitor2 \ -type DFNT_INT32 -attr {units,counts} #-------------- detector-TOF mode dettype=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS type \ -type DFNT_CHAR -rank 1 -dim {132} dety=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS y_detector \ -type DFNT_FLOAT32 -rank 1 -dim {$(detysize)} -attr {axis,1} \ -attr {units,mm} detxx=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS x_detector \ -type DFNT_FLOAT32 -rank 1 -dim {$(detxsize)} -attr {axis,2} \ -attr {units,mm} detz=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS z \ -type DFNT_FLOAT32 -rank 1 -dim {$(detxsize)} -attr {axis,2} \ -attr {units,mm} detx=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS x \ -type DFNT_FLOAT32 -attr {units,mm} detom=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS omega \ -type DFNT_FLOAT32 -attr {units,degree} detheight=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS height \ -type DFNT_FLOAT32 -attr {units,mm} detdist=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS \ distance_to_sample -type DFNT_FLOAT32 -attr {units,mm} detbase=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS \ base_height -type DFNT_FLOAT32 -attr {units,mm} dettime=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS time_binning \ -type DFNT_FLOAT32 -rank 1 -dim {$(timebin)} -attr {axis,3} \ -attr {units,ms} spinup=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS spinup \ -type DFNT_INT32 -rank 3 -dim {$(detxsize),$(detysize),$(timebin)} \ -LZW $(chunk) -attr {signal,1} #spinup=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS spinup \ # -type DFNT_INT32 -rank 3 -dim {$(detxsize),$(detysize),$(timebin)} \ # $(chunk) -attr {signal,1} detchunk=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS \ chunksize -type DFNT_INT32 -rank 1 -dim {3} spinup2d=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS spinup \ -type DFNT_INT32 -rank 2 -dim {$(detxsize),$(detysize)} \ -LZW $(chunk) -attr {signal,1} spindown=/entry1,NXentry/reflectometer,NXinstrument/TOF,NXdetector/SDS spindown \ -type DFNT_INT32 -rank 3 -dim {$(detxsize),$(detysize),$(timebin)} \ -LZW -attr {signal,1} #------------ single detectors TOF ------------------------------------- singleup=/entry1,NXentry/reflectometer,NXinstrument/single,NXdetector/SDS \ spinup -type DFNT_INT32 -rank 2 -dim {2, $(timebin)} -LZW \ -attr {signal,1} singledown=/entry1,NXentry/reflectometer,NXinstrument/single,NXdetector/SDS \ spinup -type DFNT_INT32 -rank 2 -dim {2, $(timebin)} -LZW \ -attr {signal,1} singletime=/entry1,NXentry/reflectometer,NXinstrument/single,NXdetector/SDS \ time_binning -type DFNT_FLOAT32 -rank 1 -dim {$(timebin)} \ -attr {axis,2} singletofmon=/entry1,NXentry/reflectometer,NXinstrument/single,NXdetector/SDS \ tof_monitor -type DFNT_INT32 -rank 1 -dim {$(timebin)} #------------ detector: scan mode scanroot=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS sdetx=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS x \ -type DFNT_FLOAT32 -attr {units,mm} sdetom=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS omega \ -type DFNT_FLOAT32 -attr {units,degree} sdetheight=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS height \ -type DFNT_FLOAT32 -attr {units,mm} spinupup=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS spinup_upper \ -type DFNT_INT32 -rank 1 -dim {$(scanlength)} -attr {signal,1} spindownup=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS \ spindown_upper \ -type DFNT_INT32 -rank 1 -dim {$(scanlength)} -attr {signal,2} spinuplo=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS spinup_lower \ -type DFNT_INT32 -rank 1 -dim {$(scanlength)} -attr {signal,3} spindownlo=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS \ spindown_lower \ -type DFNT_INT32 -rank 1 -dim {$(scanlength)} -attr {signal,4} somega=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS \ omega -attr {units,degree} \ -type DFNT_FLOAT32 -rank 1 -dim {$(scanlength)} -attr {axis,1} smonitor1=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS \ monitor1 \ -type DFNT_INT32 -rank 1 -dim {$(scanlength)} smonitor2=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS \ monitor2 \ -type DFNT_INT32 -rank 1 -dim {$(scanlength)} stime=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS \ time \ -type DFNT_FLOAT32 -rank 1 -dim {$(scanlength)} -attr {units,s} sdetdist=/entry1,NXentry/reflectometer,NXinstrument/scan,NXdetector/SDS distance \ -type DFNT_FLOAT32 -attr {units,mm} #------------------- data vGroup dana=/entry1,NXentry/TOF,NXdata/NXVGROUP singledana=/entry1,NXentry/single,NXdata/NXVGROUP sdana=/entry1,NXentry/scan,NXdata/NXVGROUP