1. Layer00 Efficiency Studies Stephen Levy, UChicago

2. October 29, 2003Tracking Meeting2 Method Dataset id (name) jpmm09 (JPSIMUMU-07) –4.8.4a production –Look at 2003 data : runs [158733,168889] Offline release 5.1.0pre10 Local alignment set 100034 44 TEST Run TrackRecoSequence making L00 clusters (w/out applying cluster cuts) but not adding them to tracks Use Matt’s SiHitAnalyzerModule to study quality / efficiency of unbiased Lyr00 cluster closest to track

3. October 29, 2003Tracking Meeting3 Method (cont.) Lots of statistics. Divide sample into 5 chronological segments (arbitrarily) to study stability of performance. Run Number No. events Feb ‘03Oct ‘03 block1block0block2block4block3

4. October 29, 2003Tracking Meeting4 Efficiency definition Track selection –No COT only trks (trkAlg != 16) –Must have hits in at least 2 phi & zed SVXII layers –Si trk  2 /dof < 5 –d0 corrected to SVX beam line < 200m –Pt cut applied at times (will be stated) Use SiExpected to count no. of times we expect to find a matching cluster for each Lyr00 ladder(can be 2 expected ladders due to overlapping phi region) Count no. of clusters we find in each ladder Count no. of clusters passing “standard” Lyr00 cuts in each ladder

5. October 29, 2003Tracking Meeting5 Efficiency definition (cont.) Standard cluster cuts –No bad strip or neighbor –N strip < 6 (is this correct?) –Total cluster Q < 100 –Maximum strip Q < 50 –Maximum strip noise < 3.5 detector problemalgorithm problem

6. October 29, 2003Tracking Meeting6 Track Distributions Each run block contains about 475k tracks passing cuts About 15% of these are expected to intersect two Lyr00 phi wedges Track Pt GeV Track z0 Track  cm

7. October 29, 2003Tracking Meeting7 Recall Lyr00 Geometry    -40cm +40cm Z axis L = 0 L = 2 L = 1 L = 0 L = 2 L = 1           beamspot

8. October 29, 2003Tracking Meeting8 Efficiency by ladder Inner Layer ( even)Outer Layer ( odd) L0L2L1L0L2L1 L0L2L1L0L2L1 Barrel 0Barrel 1Barrel 0Barrel 1 Block0 data

9. October 29, 2003Tracking Meeting9 Efficiency again Inner Layer ( even)Outer Layer ( odd) Same information but different visualization Barrel 0Barrel 1 00 22 44 66 88  10 00 22 44 66 88 Barrel 0Barrel 1 11 33 55 77 99  11 11 33 55 77 99

10. October 29, 2003Tracking Meeting10 Some comments Integrated efficiency ~ 65% (skewed by low eff central ladders) B0 L9 0 is known to be unbiased (loose junction card) Two inner ladders show eff ~ 15 % –B0 L2 4 –B0 L1 10 Two inner ladders show eff ~ 50 % –B0 L1 4 –B1 L0 0 Efficiency shows  dependence (more obvious visually for outer radius)

11. October 29, 2003Tracking Meeting11 Phi-dependent efficiency Split outer radius ladders into upper (=1,3,5) and lower (=7,9,11) hemisphere Split inner radius ladders into 4 closest (=0,2,4,6) and 2 farthest (=8,10) from beamspot Compare absolute cut rate for detector halves (absolute means cluster failed given cut / total clusters) Compare “n-1” (after all other cuts applied) cut rate for detector halves.

12. October 29, 2003Tracking Meeting12 Inner radius cut comparison Bin 0 : Q total < 100 Bin 1 : No. strip < 6 Bin 2 : No bad strip Bin 3 : No bad neighbor Bin 4 : Q max strip < 5 Bin 5 : Noise max strip <3.5 0 12345 0 12345 Absolute cut rate “n-1” cut rate Red = det. top Blue = det. bottom

13. October 29, 2003Tracking Meeting13 Outer radius cut comparison Bin 0 : Q total < 100 Bin 1 : No. strip < 6 Bin 2 : No bad strip Bin 3 : No bad neighbor Bin 4 : Q max strip < 5 Bin 5 : Noise max strip <3.5 0 12345 Absolute cut rate “n-1” cut rate Red = det. top Blue = det. bottom 0 12345

14. October 29, 2003Tracking Meeting14 Compare inner/outer absolute cut shapes No. strips Total Q Inner radiusOuter radius Red = det. top Blue = det. bot Larger path length through silicon for det. top ladders Hists are normalized to equal entries

15. October 29, 2003Tracking Meeting15 Is phi efficiency dependency correlated with track pt? 00 22 44 66 88  10 00 22 44 66 88 00 22 44 66 88 00 22 44 66 88 Outer radius eff Inner radius eff Integrate over ladders (0,1,2) for each barrel Red = trk pt >2 Blue = trk pt <2 ?

16. October 29, 2003Tracking Meeting16 How stable is inner radius efficiency in time? block0 block1- block0 block2- block1 block3- block2 block4- block3 block4 time

17. October 29, 2003Tracking Meeting17 How stable is outer radius efficiency in time? block0 block1- block0 block2- block1 block3- block2 block4- block3 block4 time

18. October 29, 2003Tracking Meeting18 What’s wrong with the low efficiency inner radius (<50%) ladders? L0L2L1L0L2L1

19. October 29, 2003Tracking Meeting19 Low efficiency inner radius ladders Two have problems forming clusters B0 L2 4 & B0 L1 10 (eff < 20%) Two have clusters that fail quality cuts significantly more than avg B0 L1 4 & B1 L0 0 (eff < 50%) SiExpected does not expect readout problems with these ladders (errorWord=0) Compare quality of clusters in these ladders with normal efficiency ladders

20. October 29, 2003Tracking Meeting20 No. noisy strips in cluster closest to track by run for given ladders Compare number of noisy clusters by run for low eff upper 4 ladders and normal eff inner radius (bot. left) B1 L0 0B0 L2 4 B0 L1 10 B0 L1 4 B0 L1 2 B0 L0 7 eff ~ 50% eff ~ 15% eff ~ 50% eff ~ 15% eff ~ 70-40% eff ~ 75% Just looking for some gross pathology

21. October 29, 2003Tracking Meeting21 No. dead strips in cluster by run Compare number of clusters containing dead strips by run for low eff upper 4 ladders and normal eff inner radius (bot. left) B1 L0 0B0 L2 4 B0 L1 10 B0 L1 4 B0 L1 2 B0 L0 7 eff ~ 50% eff ~ 15% eff ~ 50% eff ~ 15% eff ~ 70-40% eff ~ 75% Just looking for some gross pathology

22. October 29, 2003Tracking Meeting22 Noisy strip position (units of pitch) B1 L0 0B0 L2 4 B0 L1 10 B0 L1 4 B0 L1 2 eff ~ 50% eff ~ 15% eff ~ 50% eff ~ 15% eff ~ 70-40% eff ~ 75% Compare position of noisy cluster strips for low eff upper 4 ladders and normal eff inner radius ladder (bot. left) B0 L0 7 Expect edge (& middle) effects

23. October 29, 2003Tracking Meeting23 Dead strip position (units of pitch) B1 L0 0B0 L2 4 B0 L1 10 B0 L1 4 B0 L1 2 eff ~ 50% eff ~ 15% eff ~ 50% eff ~ 15% eff ~ 70-40% eff ~ 75% Compare position of dead strips for low eff upper 4 ladders and normal eff inner radius ladder (bot. left) B0 L0 7

24. October 29, 2003Tracking Meeting24 Residuals for good clusters Plot residual for each barrel and  wedge (integrate over ladders=0,1,2) Fit to gaussian from ±60m cm Typical fit result for b1 4

25. October 29, 2003Tracking Meeting25 Inner radius residuals Barrel 0Barrel 1 Mean Sigma mm mm 00 22 44 66 88  10 00 22 44 66 88 00 22 44 66 88 00 22 44 66 88

26. October 29, 2003Tracking Meeting26 Outer radius residuals Barrel 0Barrel 1 Mean Sigma mm mm 11 33 55 77 99  11 11 33 55 77 99

27. October 29, 2003Tracking Meeting27 Conclusions Overall efficiency relatively stable in time (2-3% spread for most ladders) Total Q deposited and no. of strips in cluster have largest impact on efficiency Several central inner ladders show poor performance during the year –Cause unknown –Great if they can be corrected offline Efficiency correlated with ladder proximity to beamspot (live with it for data collected and fix it in the future?) Much thanks to Matt & David & Tim & Ben for helping me get started