LHCb Silicon Tracker & Testbeam Data Analysis

LHCb Silicon Tracker & Testbeam Data Analysis Tracking detectors Inner Tracker (and TT) layout IT testbeam analysis Sensor characteristics Cluster properties Inter-strip region HV-scans TT-testbeam preparation Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 1

Tracking detectors: LHCb Overview Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 2

Inner Tracker Layout IT: 1.3% of sensitive area 20% of tracks straw tubes silicon strip det. 4.5m 6m 4 layers per station:(2 stereo layers) 336 IT modules: each 168 with 11 and 22cm length Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 3

TT-Layout 4 x 1.7m 2 covered by Silicon strip detectors 30 376 TT modules 11cm, 22cm and 33cm long x u v x TTa TTb Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 4

Silicon strip detector Inner Tracker Modules Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 5

Inner Tracker Boxes Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 6

Challenges???!!! moderate spatial resolution required (~70µm) moderate radiation levels 1 Mrad or BUT: 9 10 12 cm -2 of 1-MeV neutron equivalent (e.g.velo has factor 100 more) minimize readout channels large pitch (collect all charges?) large strip length (large noise) minimize material thin sensors (little charge produces) fast readout (large noise) Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 7

IT-Testbeam June 2002 multi-geometry sensors find maximal pitch optimize implant width (w/p) study: S/N, efficiency (inter-strip region) Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 8

Test Devices Hamamatsu sensors 198 µm and 237.5 µm pitch w/p: 0.25 0.35 Beetle 1.1 at 40MHz read out at 10MHz 2 test ladders: short: single sensor long: two sensors Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 9

fast and slow shaping Data Set fast shaping pulseshape scans bias voltage scans 60 200 V slow shaping different positions on long ladder DAQ timing problem only far sensor usable All together 23.000.000 events!! Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 10

Pedestal and Noise short ladder region boundary long ladder chip boundary no charge calibration S/N only pedestals and noise are quite stable between runs (noise variations between 1.27 1.42 observed, indep. of bias voltage) Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 11

Clustering & Noise SeedCut : significance of strips in cluster data 2 / noise 2 χ 2 : Σ data 2 / noise 2 cuts keep noise occupancy below 0.1% with max efficiency Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 12

Noise Clusters short ladder long ladder correlation in unassociated clusters: sometimes (~15%) just the track reconstruction failed Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 13

Data Quality: some Mysteries in region A and B (long ladder): asymmetry w.r.t. strips left and right from track o.k. reg. A reg. B reg. C possible explanations: ADC timing, echo on readout spill over from channel I to channel I+1 corrected: ADC(I+1) = ADC(I+1) 0.31 ADC(I) still regarded as not reliable Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 14

Data Quality large #noise clusters in region E (short ladder) low efficiency in region A (short ladder).. later Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 15

Cluster Properties charge sharing: η ( x ) = C R C ( x ) R ( x ) + C L ( x ) small region of charge sharing: However: up to 15% of the signal in neighbouring strip short C long C short E long E 60V 11% 15% 11% 15% 90V 9% 13% 9% 13% 140V 8.5% 12% 8.5% 12% 200V 8% 12% 8% 12% Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 16

Cluster Properties cluster charge: track 4 neighboring strips example: region C, long ladder, 90V on strips in between strips MPV=15.7 MPV=13.1 16.5% charge is lost between strips Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 17

Cluster Properties charge distribution: Landau Gaussian fitted Gaussian widths (3.07 and 3.09) match well(?) the expectation: noise per strip 1.27 (*4) gain variations 0.62 atomic binding 1.045 total: 2.83 (of course, dominated by strip noise) Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 18

Cluster S/N S/N normalised to 1 strip clusters: MPV/Noise (60V-200Vruns) S/N = 11.8 12.5 long ladder = 15.0 15.8 short ladder What do we expect? Beetle 1.1: noise = 870e + 41.5e * C tot /pf (long ladder: C tot =34.5 pf short ladder 17 pf) MPV: energy deposit in silicon: 90.96keV in 320 µm @ βγ = 120 (H.Bichsel) 25127e S/N expected = 10.9 long ladder = 15.9 short ladder Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 19

Impact of the Cluster Algorithm cluster finding algorithm: shoulders are not really included mostly 1 and 2 strip clusters two strip clusters are found everywhere reg C,long ladder, 90V on strip between strips loss 4 strips 15.7 13.1 16.5% after clustering 14.2 12.0 15.5% relative charge loss remains the same!! Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 20

example: long ladder, 90V S/N in inter-strip region slow shaping fast shaping Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 21

Efficiency in inter-strip region example: long ladder, 90V (watch region A,B) slow shaping fast shaping almost no dip for slow shaping 1-2% dip for fast shaping (region C) Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 22

Efficiency versus S/N all HV points + all different track positions S/N > 11 fully efficient Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 23

HV scan: S/N on strip slow shaping: higher S/N slight increase in S/N up to 100V w/p dependence as expected: short ladder: S/N(reg.B) > S/N(reg.C) long ladder: S/N(reg.D) > S/N(reg.E) Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 24

HV scan: S/N between strips less increase of S/N betweens strips with bias voltage than observed for on strip clusters Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 25

HV scan: dip in S/N dip increases with HV up to 100V dip is larger for short ladder: because: same charge loss and lower noise Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 26

HV scan: relative dip in S/N relative to the on strip S/N, the dip in short and long ladder are of similar size Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 27

HV scan: Efficiency on strip efficiency is basically constant with bias voltage slightly higher efficiency for slow shaping Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 28

HV scan: dip in Efficiency short ladder: no dip long ladder: dip decreases up to 100V dip smallest ~1% dip for region C Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 29

TT-Testbeam preparation testbeam period: June 3 rd -11 th test long TT-modules: 3 LHCb IT sensors (320µm) 3 GLAST sensors (400µm) 3 CMS sensors (500µm) test long interconnect: 1 Sensor + 55cm Kapton cable Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 30

TT-Testbeam Preparation module construction as test of assembly procedure : align modules by pushing them against positioning pins. accuracy of wafer placement ~ 20µm (250µrad) (can be improved) Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 31

Leakage Currents Compare leakage currents before (Zuerich) and after gluing (me): LHCb sensors GLAST sensors 4.00E-06 2.50E-07 3.50E-06 3.00E-06 2.50E-06 2.00E-06 1.50E-06 1.00E-06 5.00E-07 0.00E+00 Current (A) LHCB 0009 Current (A) LHCB 0002 Current (A) LHCB 0003 Current (A) LHCB 0013 Current (A) LHCB 0002 G. Current(A) LHCB 0003 G Current(A) LHCb 0013 G Current(A) LHCb 9 G 2.00E-07 1.50E-07 1.00E-07 5.00E-08 0.00E+00-5.00E-08 0.00E+00 1.00E+02 2.00E+02 3.00E+02 4.00E+02 5.00E+02 6.00E+02 Current (A) GLAST 2 Current (A) GLAST 3 Current (A) GLAST 4 Current(A) Glast 2 G Current(A) Glast 3 G Current(A) Glast 4 G -5.00E-07 0.00E+00 1.00E+02 2.00E+02 3.00E+02 4.00E+02 5.00E+02 6.00E+02-1.00E-07 Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 32

2.50E-05 Leakage Currents CMS sensors before gluing 2.00E-05 1.50E-05 Current (A) CMS 1. Current (A) CMS 2. 1.00E-05 Current (A) CMS 5. Current(A) CMS 5 G Copper Current(A) CMS 5 G Current(A) CMS 2 G 5.00E-06 Current(A) CMS 1 G 0.00E+00-5.00E-06 0.00E+00 1.00E+02 2.00E+02 3.00E+02 4.00E+02 5.00E+02 6.00E+02 after gluing leakage currents measured to be smaller some mistake?? Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 33

Testbeam Summary multi-geometry sensors successfully tested significant charge loss between strips from previous testbeam confirmed charge collection increases up to 100V bias voltage but remains thereafter. better charge collection for larger w/p seems to overcompensate increase in noise efficiency loss ~3% (237.5 µm pitch) ~1% (198 µm pitch) (long ladder, fast shaping) region C is 198 µm pitch will be used in IT (w/p to be decided) possible improvements: clustering algorithm, Beetle 1.2, slower shaping time work ongoing for TT-related testbeam Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 34

Sensor Capacitance total strip capacitance: C tot = (1.02 + 1.65 w/p) pf region C, long ladder: 34.5 pf Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 35

LHCb Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 36

LHCb Overview Lausanne 03 February 2003 LHCb Silicon Tracker & Testbeam Data Analysis Helge Voss 37