Presentation is loading. Please wait.

Presentation is loading. Please wait.

Aras Papadelis NIKHEF Vertex 2005, Nikko, Japan

Published byCatharina Geier Modified over 5 years ago

Similar presentations

Presentation on theme: "Aras Papadelis NIKHEF Vertex 2005, Nikko, Japan"— Presentation transcript:

1 Aras Papadelis NIKHEF Vertex 2005, Nikko, Japan
Observations of anomalous(?) bias dependent cluster centroid shifts in the LHCb VELO detector. Aras Papadelis NIKHEF Vertex 2005, Nikko, Japan

2 Outline Silicon sensors for the LHCb VErtex LOcator. Beam test results
Sensors and FE electronics. Silicon specs. Beam test results Motivation Observed bias dependency of reconstructed cluster position. Observation of possible ballistic deficit in VELO. Anomalous centroid shifts.

3 The sensors in the VELO detector
Quick reminder (for more details, see talk of L.Eklund ) R and  measuring sensors, 2048 strips per sensor Analogue FE read out done by the Beetle chip. 25 ns peaking time 128 strips read out in parallel. 7mm 42mm

4 Some silicon specifications
Non-irradiated sensor from Micron, R-geometry, n+-on-n with p-spray Bulk thickness 200 µm 300 µm Depletion Voltage 34V 55V Drift time at 100V ~4 ns ~8 ns Doping concentration 1012 cm-3 Resistivity ~ 5 kΩ cm Strip resistance ~ 50 Ω (Strip + routing line ≈ 3.1 cm) Bias resistors 1.8 MΩ (110 x 16.5 kΩ) Crystal orientation <100> Strip pitch µm (with increasing radius) Strip width 0.4 * pitch VELO sensor is of ”normal” design, no surprises are expected. Drift times well below 25 ns.

5 Background Sept 2004: Steve Biagi (LHCb Liverpool) suggests that ballistic deficit in non-irradiated sensors can give offsets in reconstructed cluster position for angled tracks. Subsequently investigated in VELO beam tests of Nov

6 Test beam setup CERN X7 SPS 120GeV pions. sensor Beam beam
10° incidence angle Beam Took data at 10°, bias voltages 100V, 200V and 300V. (Vfd is 34V and 55 V) Hamamatsu R sensor (Telescope) Hamamatsu Phi sensor (Telescope) PR micron R sensor PR micron R sensor

7 Bias dependent mean residual shift
We are looking for a shift in the mean value of the track residual distribution. Align system at 100V Study mean residual at different bias voltages. 200 µm 300 µm 100 V 200 V 300 V Residual (cm) Residual (cm)

8 Residual shift vs radius
200 µm 300 µm 9m 8m pitch Clear systematic shift in residuals between different voltages. Same size for both 200 and 300 µm thick sensors. (Effect first observed by J. Palacios, CERN) ”Banana bend” for 200 µm at high pitch, possibly due to warped sensor. Looks like sensors are misaligned!

9 Further checks... Widths of residual distribution more or less independent of bias voltage. -distributions look as expected for a misaligned detector. 300 µm 200 µm

10 VERY CLEAR: No time dependence big enough to cause misalignment
Safety check Data taking was done in one sequence during 10 hours. 200 µm 300 µm Time  VERY CLEAR: No time dependence big enough to cause misalignment

11 Ballistic deficit? Signal increases between 100V and 300V.
Is this ballistic deficit? Also: 300V arrives about 2 ns before 100 V.

12 Publications on ballistic deficit
”Similar” unirr. sensor (thickness, strip pitch, Vfd ) and FE electronics. Result: Small ballistic deficit for sensor bias above 100V is observed. Study of the performance of ATLAS prototype detectors using analogue front end electronics. (Riedler, Dabrowski, Kaplon, Weilhammer) NIM A 477 (2002) 104–109 Unirradiated p-on-n Charge collection efficiency studies with irradiated silicon detectors. (Allport et al.) NIM A 501 (2003) Similar results, the ballistic deficit at 100 V is small.

13 Signal loss due to timing
*Simplified* way of viewing ballistic deficit. Assume: no charge trapping (unirradiated) homegenous E-field same µ everywhere in sensor. Electrons in the grey region do not contribute fully to the signal.  shift in the cluster centroid! For a 300 m sensor, a 8 m shift corresponds to a ~30 % signal loss between 300V and 100V. This is not what we observe! Sensor thickness dependence should be seen! Simulation needed! Cluster centroid shift n+ w n-bulk p+ 100V 300V NB: Proportions are not correct!

14 So, whodunnit? Slowly moving sensors? NO!
Sensor movement due to change in voltage? VERY UNLIKELY! Ballistic deficit? NO! Unclear if the signal loss that can be observed is ballistic deficit. Signal loss observed is not big enough to cause observed shift. No width dependence can be seen Looks like a surface effect Caused by changes in drift field when going from 100V to 300V? Effects related to shape of weighting field? But! Why is no pitch dependence seen? (Remember: strip width/pitch=constant) Timing effect Is the 2 ns peak shift big enough to cause 10 µm shift?.

15 Suggestions are very welcome!
Conclusion We see a distinct and systematic shift in mean residuals at 300V compared to 100V bias voltage. We have not understood it yet, despite a lot of effort. The question remains open… Suggestions are very welcome!

16 “Oh no, not homework again”

17 RESERVE SLIDES

18 Residuals vs inter strip position
Simulation Perfect alignment 10 m misalignment  in high pitch region =QL/(QL+QR)

Download ppt "Aras Papadelis NIKHEF Vertex 2005, Nikko, Japan"

Similar presentations

% Charge lost to routing line (detector No irradiation) % Voltage(V) Charge lost to routing line predicted to be O(5%) Charge lost reduces with higher.

% Charge lost to routing line (detector No irradiation) % Voltage(V) Charge lost to routing line predicted to be O(5%) Charge lost reduces with higher.
Micron detector testing in Liverpool G. Casse – O. Lodge Laboratory, University of Liverpool.

Micron detector testing in Liverpool G. Casse – O. Lodge Laboratory, University of Liverpool.
Study of Large-area GEM Detectors for a Forward Tracker at a Future Electron-Ion Collider Experiment Aiwu Zhang, Vallary Bhopatkar, Marcus Hohlmann Florida.

Study of Large-area GEM Detectors for a Forward Tracker at a Future Electron-Ion Collider Experiment Aiwu Zhang, Vallary Bhopatkar, Marcus Hohlmann Florida.
Collection Of Plots for A Testbeam Paper. List of Possible Plots R/Phi resolution, charge sharing, noise etc. Noise performance and few Landau distributions.

Collection Of Plots for A Testbeam Paper. List of Possible Plots R/Phi resolution, charge sharing, noise etc. Noise performance and few Landau distributions.
Combined Measurement Results of dedicated RD50 Charge Multiplication Sensors Christopher Betancourt 2, Tom Barber 2, Gianluigi Casse 1, Paul Dervan 1,

Combined Measurement Results of dedicated RD50 Charge Multiplication Sensors Christopher Betancourt 2, Tom Barber 2, Gianluigi Casse 1, Paul Dervan 1,
New approach to simulate radiation damage to single-crystal diamonds with SILVACO TCAD Florian Kassel, Moritz Guthoff, Anne Dabrowski, Wim de Boer.

New approach to simulate radiation damage to single-crystal diamonds with SILVACO TCAD Florian Kassel, Moritz Guthoff, Anne Dabrowski, Wim de Boer.
November 7th 2002Jim Libby (CERN/SLAC)1 Opposite Polarity Signals in Wide Pitch Sensors Jim Libby (CERN/SLAC) Introduction to the R&D in LHCb The test-beam.

November 7th 2002Jim Libby (CERN/SLAC)1 Opposite Polarity Signals in Wide Pitch Sensors Jim Libby (CERN/SLAC) Introduction to the R&D in LHCb The test-beam.
May 14, 2015Pavel Řezníček, IPNP Charles University, Prague1 Tests of ATLAS strip detector modules: beam, source, G4 simulations.

May 14, 2015Pavel Řezníček, IPNP Charles University, Prague1 Tests of ATLAS strip detector modules: beam, source, G4 simulations.
Simulation of the spark rate in a Micromegas detector with Geant4 Sébastien Procureur CEA-Saclay.

Simulation of the spark rate in a Micromegas detector with Geant4 Sébastien Procureur CEA-Saclay.
Bulk Micromegas Our Micromegas detectors are fabricated using the Bulk technology The fabrication consists in the lamination of a steel woven mesh and.

Bulk Micromegas Our Micromegas detectors are fabricated using the Bulk technology The fabrication consists in the lamination of a steel woven mesh and.
Update on Analysis of FNAL TB09 Jianchun Wang for the group Syracuse Univesity Jan 29 th,2010.

Update on Analysis of FNAL TB09 Jianchun Wang for the group Syracuse Univesity Jan 29 th,2010.
Standalone VeloPix Simulation Jianchun Wang 4/30/10.

Standalone VeloPix Simulation Jianchun Wang 4/30/10.
Vertex 2001 Brunnen, Switzerland Phil Allport Gianluigi Casse Ashley Greenall Salva Marti i Garcia Charge Collection Efficiency Studies with Irradiated.

Vertex 2001 Brunnen, Switzerland Phil Allport Gianluigi Casse Ashley Greenall Salva Marti i Garcia Charge Collection Efficiency Studies with Irradiated.
Department of Physics VERTEX 2002 – Hawaii, 3-7 Nov. 2002 Outline: Introduction ISE simulation of non-irradiated and irradiated devices Non-homogeneous.

Department of Physics VERTEX 2002 – Hawaii, 3-7 Nov Outline: Introduction ISE simulation of non-irradiated and irradiated devices Non-homogeneous.
Striplet option of Super Belle Silicon Vertex Detector Talk at Joint Super B factory workshop, Honolulu 20 April 2005 T.Tsuboyama.

Striplet option of Super Belle Silicon Vertex Detector Talk at Joint Super B factory workshop, Honolulu 20 April 2005 T.Tsuboyama.
Bias routing of short strip on large area detectors G. Casse, University of Liverpool.

Bias routing of short strip on large area detectors G. Casse, University of Liverpool.
LHCb VELO Upgrade Medipix/Timepix PR01 Testbeam

LHCb VELO Upgrade Medipix/Timepix PR01 Testbeam
Abraham Gallas (USC-IGFAE) Strips and Pixels for the VELO upgrade.

Abraham Gallas (USC-IGFAE) Strips and Pixels for the VELO upgrade.
11 th RD50 Workshop, CERN 12-14 Nov. 2007 1 Results with thin and standard p-type detectors after heavy neutron irradiation G. Casse.

11 th RD50 Workshop, CERN Nov Results with thin and standard p-type detectors after heavy neutron irradiation G. Casse.
Jeroen van Hunen The LHCb Tracking System. May 22, 2006 Frontier Detectors for Frontier Physics, Elba, 2006. Jeroen van Huenen 2 The LHCb Experiment LHCb.

Jeroen van Hunen The LHCb Tracking System. May 22, 2006 Frontier Detectors for Frontier Physics, Elba, Jeroen van Huenen 2 The LHCb Experiment LHCb.

Similar presentations

Ads by Google