21 Sep 2009Paul Dauncey1 Status of Imperial tasks Paul Dauncey.

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Presentation transcript:

21 Sep 2009Paul Dauncey1 Status of Imperial tasks Paul Dauncey

21 Sep 2009Paul Dauncey 2 Imperial tasks Simulation updates and production - Paul Bad pixels, configuration and threshold – Paul Efficiency, 2D method – Paul Simulation Nothing done since last meeting  Bad pixels Have first order list of bad pixels for each run Some simple software to handle the information 2D efficiency Efficiency vs impact position of track relative to pixel Some basic results on this

21 Sep 2009Paul Dauncey 3 Bad pixels Based on masking, bad configuration columns, bad pedestals Does not include full memory flagging Complicated by sensor configuration having only destructive readback Only know configuration is bad after run finishes Need to find pad pixels before analysis job If run crashes, no check at all Selection of bad pixels/columns/sensors Pixel: masked, trim=0, or wrong on readback Column: >100 pixels with trim=0, trim=31 or wrong on readback Sensor: no runEnd readback Results stored in files in data/pxl/ One file per run and layer; single bit per pixel E.g. Run447790Layer0.pxl

21 Sep 2009Paul Dauncey 4 Using the bad/good pixel lists Do an rsync from the Imperial data area to get the data/pxl/ directory Define the objects to contain the lists MpsGoodPixels mgp[6]; At runStart, read in the list files for(unsigned layer(0);layer<6;layer++) { mgp[layer].readRunLayer(runNumber,layer); } Find number of good pixels in a layer unsigned gn=mgp[layer].goodNumber(); For any pixel x<168 and y<168 if(mgp[layer].good(x,y)) { // Use for analysis Check daquser/inc/mps/MpsGoodPixels.hh for other useful methods

21 Sep 2009Paul Dauncey 5 Aside on monostable lengths Checked number of contiguous hits in time for each pixel See high rate of pixels with more than one hit Disagrees with Benedict’s study; needs to be cross-checked N.B. Quick check so not systematic Only checked for hits within  1 of PMT time Contiguous hits could be longer

21 Sep 2009Paul Dauncey 6 2D efficiency Basic concept Form a track from all layers except the one under study Project track onto layer under study Find position of track projection relative to each good pixel (within 7×7) Plot number of hits in good pixel as a function of position Divide by track position plot to get efficiency as a function of position Need to check track quality Badly reconstructed track will not project to right position on sensor Gives artificial inefficiency; not yet tackled this Construct “best” track from all combinations of all hit in all layers All tracks required to have at least 3 layers and fit  2 probability > 0.1 Always pick track with highest number of layers Pick highest probability if multiple tracks with highest number of layers Repeat selection for all tracks with each layer excluded in turn Used for efficiency estimate

21 Sep 2009Paul Dauncey 7 Tracks dependence on PMT hits Probability of finding a track given a particular pattern of scintillator hits ~58% All With tracks PMT output clean; use all singles and coincidences to try to find tracks Tag 0 Tag 1 Tag 0&1 Tag 2 Tag 0&2 Tag 1&2 Tag 0&1&2

21 Sep 2009Paul Dauncey 8 Scintillator positions Project tracks into plane of scintillators Black points are if scintillator gives tagging hit, red if no tagging hit Clear edge of scintillators 0 and 1 Possible edge of scintillator 2

21 Sep 2009Paul Dauncey 9 Scintillator-sensor overlap Scintillator size Sensor size ~65% overlap

21 Sep 2009Paul Dauncey 10 Cartoon of scintillator geometry

21 Sep 2009Paul Dauncey 11 Hits in and out of time Typical run , threshold 170 Number of sensor hits as a function of track position w.r.t. pixel centre Plot is for 7×7 pixel array =  175  m In-time Out-of-time

21 Sep 2009Paul Dauncey 12 Track distribution Division gives efficiency

21 Sep 2009Paul Dauncey 13 Projections in x and y 25  m wide Efficiency Keep With hit All tracks

21 Sep 2009Paul Dauncey 14 Projections in x and y vs threshold Run , threshold 130 No hits at all!

21 Sep 2009Paul Dauncey 15 Projections in x and y vs threshold Run , threshold 140

21 Sep 2009Paul Dauncey 16 Projections in x and y vs threshold Run , threshold 150

21 Sep 2009Paul Dauncey 17 Projections in x and y vs threshold Run , threshold 160

21 Sep 2009Paul Dauncey 18 Projections in x and y vs threshold Run , threshold 170

21 Sep 2009Paul Dauncey 19 Projections in x and y vs threshold Run , threshold 180

21 Sep 2009Paul Dauncey 20 Projections in x and y vs threshold Run , threshold 190

21 Sep 2009Paul Dauncey 21 Projections in x and y vs threshold Run , threshold 200

21 Sep 2009Paul Dauncey 22 Projections in x and y vs threshold Run , threshold 210

21 Sep 2009Paul Dauncey 23 Projections in x and y vs threshold Run , threshold 220

21 Sep 2009Paul Dauncey 24 Projections in x and y vs threshold Run , threshold 230

21 Sep 2009Paul Dauncey 25 Projections in x and y vs threshold Run , threshold 240

21 Sep 2009Paul Dauncey 26 Projections in x and y vs threshold Run , threshold 250

21 Sep 2009Paul Dauncey 27 Conclusions Major part of previous (apparent) inefficiency due to scintillator/sensor overlap Overlap is ~65% with first two scintillators Need to find a method to measure bad track rate Not yet started Efficiency does not monotonically decrease with threshold Low thresholds have very low efficiencies Presumably due to memory filling Efficiency does not fall off fast at high thresholds Did not take data above 250 TU Insufficient range for our studies?