Pixel Results from CRAFT09
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Pixel Results from CRAFT09 U. Langenegger (PSI), G. Giurgiu (JHU) Pixel General Meeting November 10, 2009
description
Pixel Results from CRAFT09. U. Langenegger (PSI), G. Giurgiu (JHU) Pixel General Meeting November 10, 2009. CRAFT09 Analyses. Gain calibration + Validation – R. Rougny (Antwerpen), U. Langenegger (PSI) Pixel hit efficiency - L. Mucibello, R. Rougny, N. van Remortel (Antwerpen) - PowerPoint PPT Presentation
Transcript of Pixel Results from CRAFT09
Pixel Results from CRAFT09
U. Langenegger (PSI), G. Giurgiu (JHU)
Pixel General MeetingNovember 10, 2009
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CRAFT09 Analyses
- Gain calibration + Validation – R. Rougny (Antwerpen), U. Langenegger (PSI)
- Pixel hit efficiency - L. Mucibello, R. Rougny, N. van Remortel (Antwerpen)
- Pixel hit resolution – K. Ulmer (Colorado)
- BPIX Lorentz angle – M. Ivova, V. Chiochia (Zurich)
- FPIX Lorentz angle – A. Kumar, A. Godshalk, A. Kharchilava (Buffalo)
- Data/MC comparison – A. Jaeger, V. Chiochia (Zurich), M.Swartz (JHU)
- All analyses done with most recent CRAFT09 reprocessing /Cosmics/CRAFT09-TrackingPointing-CRAFT09_R_V4_CosmicsSeq_v1/RAW-RECO
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Gain Calibration R. Rougny (Antwerpen), U. Langenegger (PSI)
- Pixel thresholds minimized before CRAFT09 → procedure led to significant fraction of negative BPIX pedestals
- After CRAFT09, detector settings changed to fix negative pedestals (Ben Kreis, D. Kotlinski) → new gain calibration taken (run 117680) → fraction of negative pedestals indeed negligible in new calibration:
BPIX FPIX
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Gain Calibration Validation U. Langenegger (PSI), R.Rougny (Antwerpen)
- Analyze post-CRAFT09 data to validate new gain calibration
CRAFT09 data
- Fraction of post-CRAFT09 data
- No problems seen
Runs119226119094119090119088119079119022119017118969118878118762118621
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In http://www.phys.ethz.ch/~ursl/cms/091110/ you can find a higherstatistics version of the CRAFT09-II gain calibration validation. This is still without the SP skim.
CRAFT09-II----------cluster charge: http://www.phys.ethz.ch/~ursl/cms/091110/craft09-II-clusterCharge.psBPIX Landau+Gauss: http://www.phys.ethz.ch/~ursl/cms/091110/craft09-II-bpix.psFPIX Landau+Gauss: http://www.phys.ethz.ch/~ursl/cms/091110/craft09-II-fpix.ps
reprocessed CRAFT09 SP skim---------------------------cluster charge: http://www.phys.ethz.ch/~ursl/cms/091110/reprocessed-sp-data-clusterCharge.psBPIX Landau+Gauss: http://www.phys.ethz.ch/~ursl/cms/091110/reprocessed-sp-data-bpix.psFPIX Landau+Gauss: http://www.phys.ethz.ch/~ursl/cms/091110/reprocessed-sp-data-fpix.ps
The MPV have come down a bit in both BPIX and FPIX, the effect of the slightly lowered gains, visible in the overlayed offline payload comparison for the new and previous gain calibration runs
http://www.phys.ethz.ch/~ursl/cms/091110/gains-108062-117680.png
The relative width has decreased (increased) slightly for the BPIX (FPIX).
The gain calibration looks good
Gain Calibration Validation U. Langenegger (PSI)
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Data / MC Comparison A. Jaeger, V. Chiochia (Zurich)
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Data / MC Comparison – Cluster Charge A. Jaeger, V. Chiochia (Zurich)
- Fair agreement between data and MC- Disagreement at low charge could be explained by lower thresholds in MC than in data- Andreas will produce MC with higher thresholds which match data
barrel barrel
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Data / MC Comparison – Pixel Charrge A. Jaeger, V. Chiochia (Zurich)
barrelbarrel
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Data / MC Comparison – Pixel Hit Probability A. Jaeger, V. Chiochia (Zurich)
- Pixel hit probability calculated as chi2 probability of the matching between the observed cluster shape and the expected template- Fair qualitative agreement between data and MC
→ important test since we plan to use pixel probability to improve tracking (remove bad hits, split merged clusters…)
- Work in progress- re-digitize MC with higher thresholds to match MC- optimize phase space to emulate collisions better
(~4000 electrons)
barrel
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Pixel Hit Efficiency L. Mucibello, R. Rougny, N. van Remortel (Antwerpen)
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Pixel Hit Efficiency L. Mucibello, R. Rougny, N. van Remortel (Antwerpen)
Layer 1 Layer 2 Layer 3
White boxes = known bad modules
low statistics
Eff = Nvalid / (Nvalid + Nmissing)
Pixel sensor efficiency ~ 98.3 – 98.5%
- Will investigate pixel efficiency with strip seeded tracks to avoid biases in efficiency
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Pixel Hit ResolutionK. Ulmer (Colorado)
- Pixel hit resolution measured in CRAFT09 using the “double difference” method- Compare measured resolution with predicted errors from template based cluster parameter
estimator (CPETemplate)
- Resolution in microns : reprocessed original processing measured predicted measured predicted X 18 ± 1 15 ± 1 19 ± 3 15 ± 1 Y 26 ± 1 23 ± 1 32 ± 2 25 ± 2
- Measured resolution about 10-20% worse than predicted by CPE- Will repeat measurements with much better statistics with collisions- Will correct CPE predicted errors to match observed resolution
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BPIX Lorentz Angle – Cluster Size Method M. Ivova, V. Chiochia (Zurich)
E
- Good agreement LA measured in latest and first processing as well as with the PIXELAV Simulation
cot()min = -0.408 +/- 0.002 – latest CRAFT09 reprocessingcot()min = -0.405 +/- 0.003 – first CRAFT09 processingcot()min = -0.397 +/- 0.003 – PIXELAV simulation (M. Swartz)
B field ON B field OFF
LA consistent with zero within 2Lorentz ≈ 22°
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FPIX Lorentz Angle – Cluster Size Method A. Kumar, A. Godshalk, A. Kharchilava (Buffalo)
- Good agreement LA measured in latest and first processing as well as with the PIXELAV Simulation
cot()min = -0.084 +/- 0.008 – first CRAFT09 reprocessingcot()min = -0.080 +/- 0.005 – latest CRAFT09 processingcot()min = -0.081 +/- 0.003 – PIXELAV simulation (M. Swartz)
Lorentz ≈ 5°
LA consistent with zero
B field ON B field OFF
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FPIX Lorentz Angle – Grazing Angle Method A. Kumar, A. Godshalk, A. Kharchilava (Buffalo)
- Buffalo group also measured FPIX LA using grazing angle method in CRAFT08 and got
good agreement with cluster size method
→ nice proof of principle
3.75° ± 0.41° - grazing angle
3.95° ± 0.39° - cluster size
- This is important since with collisions
cluster size method is not adequate
- With collisions grazing angle method
will be used for BPIX
- For FPIX neither grazing angle nor
cluster size are optimal with collision tracks
→ might have to rely on cosmics
only Depth (m)
Avg.
Drift
(mm
)
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Conclusion
- Gain calibration in place and validated with post CRAFT09 data
- Lorentz angles measured and in agreement with previous processing and with PIXELAV simulation
- Pixel sensor efficiency ~98.5%- Next step: use strip seeded tracks to avoid biases
- Reasonable data/MC agreement when collision like cosmic tracksselected but some cosmic specific effects not simulated
- Pixel hit resolution within 10-20% from expectation- Will repeat with collisions and adjust predicted errors if needed
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Backup Slides
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Gain Calibration Validation U. Langenegger (PSI), R.Rougny (Antverpen)
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CRAFT09 data
- Fraction of post-CRAFT09 data
- No problems seen
Gain Calibration Validation U. Langenegger (PSI), R.Rougny (Antverpen)
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