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Tracking Simulation Studies at UC Santa Cruz Bruce Schumm UCSC/SCIPP LCWS07 DESY May 30-Jun 3 2007 Tracking Validation Studies Non-prompt tracks with SiD.

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Presentation on theme: "Tracking Simulation Studies at UC Santa Cruz Bruce Schumm UCSC/SCIPP LCWS07 DESY May 30-Jun 3 2007 Tracking Validation Studies Non-prompt tracks with SiD."— Presentation transcript:

1 Tracking Simulation Studies at UC Santa Cruz Bruce Schumm UCSC/SCIPP LCWS07 DESY May 30-Jun 3 2007 Tracking Validation Studies Non-prompt tracks with SiD

2 I. Tracking Validation Pacakge For now, demonstrate with Blanc/Wagner SODTracker, without proper fitter (Kalman Filter fitter ready but not yet tested) SODTracker extends VXD stubs; “cheat” those for now !!!!! Need legitimate full-service tracker !!!!

3 Tracking Validation Pacakge Package is C++/ROOT written by Chris Meyer (UCSC physics major) Reads in platform-independent flat file with specific format (output by JAS, …) Flat file includes all relevant particles (MC) and tracks, with two-way MC Truth cross-referencing, and track/particle attributes Also reads in error-matrix information in cos  /p grid (e.g. from LCDTRK)

4 Efficiency vs.  500 GeV uds pT > 0.75 GeV pT > 5.0 GeV Some examples…  = angle between jet axis and track

5 “Tri-Plots” (fitting validation)

6 II. Non-Prompt Tracks with the SiD About 5% of tracks originate outside the 2 nd layer of the VXD. Is the SiD able to reconstruct these?

7 People and Contributions I Tim Nelson (SLAC) AxialBarrelTracker (Snowmass ’05) finds tracks using only the five central tracking layers Begins with three track “seed” from outer layers and works inwards Designed to find prompt tracks if VXD disabled

8 People and Contributions II Tyler Rice (UCSC Physics Major) Optimize AxialBarrelTracker for non-prompt tracks Benchmark and enhance performance Lori Stevens (UCSC Physics Major) Introduce z-segmentation algorithm into AxialBarrelTracker Study performance vs. z segmentation

9 Number of hits on track Track Momentum “Good” “Other” “Knock-on” (less than 10 MeV) “Looper” Total hits:30510100% Good hits:17545.7% Looper hits:1354644.4% Knock-on hits:1082135.5% Other hits:438914.4% Total tracks:6712100% Good tracks:4456.6% Looper tracks:4596.8% Knock-on tracks:330349.2% Other tracks:250537.3% What’s left after “finding” (cheating!) prompt tracks?

10 “Found”: associated with a track, with at most one hit coming from a different particle. “Fake”: Any non-associated track with p t >0.75 and DCA < 100mm. ParticlesFakes Found 5 Hits131(43%) 1 Found 4 Hits100(33%) 270 Not Found 73(24%) ----- AxialBarrelTracker Effieciency Studies Out of 304 “findable” particles in Z 0  bb events Find 43% of particles Four-hit tracks seem difficult

11 Sources of Inefficiency Restrict to particles that hit all five layers: 166 Findable MC Particles (304 before requirement) 113 Found with 5 hits (68% vs. 43%) 25 Found with 4 hits (15% vs. 33%) 28 Missed (17% vs. 24%) Also require all three “seed” hits to be from same particle: 144 Found with 5 hits (87% vs. 43%) 15 Found with 4 hits (9% vs. 33%) 7 Missed (4% vs. 24%)

12 Improving AxialBarrelTracker Efficiency For the vast majority of particles, all hits are within  /2 of one another in azimuth (  ). Make this restriction… With Azimuthal Restriction % of MCPs Without Azimuthal Restriction % of MCPs # of MCPs 304100%304100% Found with 5 hits 14548%13143% Found with 4 hits 11237%10033% Missed 4715%7324% Fake (4 hit / 5 hit) 157 / 1270 /1 Some improvements in efficiency and reduction of fakes…

13 Note: Not actual spacing between modules Hit 1 Hit 2 Possible modules for following hits Z Segmentation Can we use z-segmentation to further clean up seeds and eliminate fake tracks? Can we make 4-hit tracks usable? For now, apply only to three-hit seeds…

14 AxialBarrelTracker Effieciency Two halves (original) 30cm segments 10cm segments 5cm segments 1cm segments # MCPs 304302 Found with 5 hits 145142147152 Found with 4 hits 112113114110101 Missed 47 414049 4-hit fake 15720114110845 Application of segment consistency to seeds provides improvement, but only for lengths less than 10cm

15 AxialBarrelTracker Effieciency

16 Conclusions/Outlook Preliminarily, need z-segmentation substantially finer than 10cm to clean up “seeds” for stand-alone central tracking Still need to explore segmentation constraint for additional hits (soon!… but probably only 4 th hit matters) Platform-independent tracking validation package available Next up: include CAL information… > Look for extension of 4-hit (and 3-hit?) tracks > Use Kansas State “Garfield” algorithm as 3 rd -pass (after VXD-based algorithm and AxialBarrelTracker) Questions addressed: How few hits do we need in central tracker to reliably reconstuct tracks? How fine does z segmentation need to be to help?

17 AxialBarrelTrackFinder Performance Define “findable” particle as P t > 0.75 Radius of origin < 400 mm (require four layers) Path Length > 500 mm |cos  | < 0.8 Number of “findable” particles per event

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