Sept. 24, 20101 Status of GEM DHCAL Jae Yu For GEM-TGEM/DHCAL Group Sept. 24, 2010 CALICE Collaboration Meeting Univ. Hassan II, Casablanca Introduction.

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Sept. 24, Status of GEM DHCAL Jae Yu For GEM-TGEM/DHCAL Group Sept. 24, 2010 CALICE Collaboration Meeting Univ. Hassan II, Casablanca Introduction What has been done? 2D readout with KPiX chip TGEM Beam Test at CERN Large GEM Foil Certification Large Chamber Mechanics Design Summary GEM DHCAL, J. Yu

Sept. 24, Why GEM? Flexible configurations: allows small anode pads for high granularity Robust: survives ~10 12 particles/mm 2 with no performance degradations Based on electron collection, ~few ns rise time Short recovery time  can handle high rates Uses simple gas (Ar/CO 2 ) – no long-term issues Runs at relatively low HV ( ~400V across a foil) Stable operations GEM DHCAL, J. Yu

Sept. 24, GEM-based Digital Calorimeter Concept Use Double GEM layers { ~6.5mm -2100V ∆V ~400V 0V GEM DHCAL, J. Yu

Sept. 24, What have been done so far? Bench tested with various source and cosmic ray –Used QPA02 chip based preamp –Verified the signal shape, responses and gain Took a beam test at a high flux electron beam –Prototype chamber built with 3M’s 30cmx30cm GEM –Used QPA02 chip based preamp –Verified that the chamber can survive Took two beam tests at FNAL’s MTBF –Used QPA02 chip based preamp –8 GeV pion beams and 120GeV proton beams –Measured chamber responses, efficiencies and gain GEM DHCAL, J. Yu

1024 channel 13 bit ADC chip Developed for Si/W SLAC DHCAL anode pad Dynamic gain select (GEM/Si) Event triggered by the ILC clock Leakage current subtraction calibration Storage until end of train. Pipeline depth presently is 4 13 bit A/D KPiX Analog Readout for GEM DHCAL New version equipped with self and ext. trigger Sept. 24, 20105GEM DHCAL, J. Yu

GEM-DHCAL/KPiX boards with Interface and FPGA boards Sept. 24, 20106GEM DHCAL, J. Yu

HV power Analog signal Gas outlet LV power Data cable Top side Sept. 24, 20107GEM DHCAL, J. Yu Fe55 Source Signal

Fe 55 Ru 106 Good conformation to characteristic Minimum Ionizing Landau fit Sept. 24, 20108GEM DHCAL, J. Yu GEM+kPiX Fe 55 and Ru 106 Spectra

Charge Weighted Lego for Fe55 HV=1960 V, Self Trigger Th=1.8 V= 14fC Inactive area (HV not applied) 9

Histogram Map for Fe55 HV=1960 V, Self Trigger Th=1.8 V= 14fC 10

1960 V 1930V 1900V 1860V 11Sept. 24, 2010GEM DHCAL, J. Yu Typical operating point: Gain ~6000 Gain vs HV

Pressure Dependence of Gain Sept. 24, GEM DHCAL, J. Yu

Cosmic Ray Data with External Trigger – kPiX Sept. 24, GEM DHCAL, J. Yu Noise spectrum

Thick Gas Electron Multiplier (THGEM) SIMPLE, ROBUST, LARGE-AREA  Intensive R&D  Many applications 1 e - in e - s out E THGEM Double-THGEM: higher gains ~ 10-fold expanded GEM PCB Based GEM  Cost effective 0.5 – 1mm thick PCBs Drilled 0.4mm holes with 1mm pitch Expected to have higher gain per GEM 10cmx10cm tested, up to 30cmx30cm produced Thickness 0.5-1mm drilled etched THGEM Recent review NIM A 598 (2009) 107 THGEM - A. Breskin et al

2-THGEM BEAM TESTS with Q-preamp/MCA 2-THGEM BEAM TESTS with KPIX First kpix spectrum with muons. Double-THGEM, Ne/5%CH4; Average gain 5300 Trigger: large scint + ~1cm2 scint 3.4 mm drift First Q-preamp spectrum with muons. Double-THGEM, Ne/5%CH4; Average gain 5000 Trigger: large scint + ~1cm2 scint 3.4 mm drift e-e- 1x1 cm pad electrode THGEM MIP KPIX or Q-preamp/MCA Here we had: 0.5mmholes/1mm space Muons w Double-THGEM KPIX or Q-preamp/MCA August 2010 THGEM - A. Breskin et al

CERN TGEM test-beam detector 10x10 cm2 THGEM 64 pads electrode with KPiX behind Installation at CERN THGEM - A. Breskin et al Sept. 24, GEM DHCAL, J. Yu

Single THGEM 10x10cm Thickness: 0.4 mm Particles: muons Gas: Ne/5%CH 4 Drift gap: 3 mm Charge preamp/MCA 0.5 cm 2 trigger Efficiency: ~95% 20 August 2010: Single-THGEM with muons muons  ~96% August 2010 THGEM - A. Breskin et al Sept. 24, GEM DHCAL, J. Yu

Single-THGEM/3mm drift gap PIONSMUONS Measured very low discharge rates even with pions THGEM - A. Breskin et al Sept. 24, GEM DHCAL, J. Yu

33cmx100cm GEM Foil Design Designed to work with DCAL boards Active area 468x306 mm 2 Number of HV sectors = 32x2=64 HV sector dimension= 9.9x mm 2 Sept. 24, 2010 GEM DHCAL, J. Yu19

33cmx100cm Large Area GEM First 5 of 33cmx100cm GEM foils delivered early July, 2010 Design for Large Area GEM detector frames Sept. 24, 2010GEM DHCAL, J. Yu20

Temporal Behavior of Strips Strip #4 - Trial 1Strip #4 – Trial 2 Strip #9 –trial 1Strip #9 – trial 2Strip #9 – trial 3 Sept. 24, 2010GEM DHCAL, J. Yu 21

Times to reach full charge saturation Sept. 24, 2010GEM DHCAL, J. Yu22 Indication of general health of each strip Most of them reaches full charge up in 30min Two strips took 15min longer Resistance of each strip is over 260GOhms!!

Base steel plate, t=2 mm Readout Board 320x500 mm mm 1000 mm 33cmx100cm DHCAL Unit Chamber Construction 23 1mm pad board 2mm FE board 1mm assister strong back 2mm steel strong-back + thin cathode layer 3mm 1mm 1cm thick support from G10 spacers GEM DHCAL, J. YuSept. 24, 2010 We might be able to avoid this dead zone by gluing the two boards directly together!! Readout boards are part of the gas volume!! How do we mate these together with minimal dead area?

UTA’s 33cm x 100cm DHCAL Unit Chamber Sept. 24, GEM DHCAL, J. Yu Glue the boards directly on their edges??

Sept. 24, GEM DHCAL, J. Yu UTA’s 100cmx100cm Digital Hadron Calorimeter Plane (32x96 mm 2 ) 100cm 96 ~ 97cm 32cm 100cm

Sept. 24, 2010GEM DHCAL, J. Yu26 GEM DHCAL Plans Phase I  Completion of 30cm x 30cm characterization –Mid 2010 – Early 2011: using one to three planes of 30cm x 30cm double GEM chamber with 64 channel KPiX7 and DCAL chips –Oct. 2010: Joint Test with THGEM/KPiX at CERN (Using RD51 setup) Phase II  33cm x 100cm unit chamber construction and characterization –Early 2011 – late 2011 at FTBF: Using available KPiX chips (V9?) and DCAL chips Phase III  100cm x 100cm plane GEM DHCAL performances in the CALICE stack –Late 2011 – Late 2012 at Fermilab’s FTBF or CERN –Five 100cm x 100cm planes inserted into existing CALICE calorimeter stack and run with either Si/W or Sci/W ECALs, and RPC or other technology planes in the remaining HCAL

Summary Steady progress has been made reading out 30cmx30cm GEM prototype chambers with 64 channel KPiX v7 chips –Observed clean characteristic peaks from Fe 55 and Ru 106 sources as well as cosmic ray muons –Getting ready to beam test these chambers –Higher channel count (512 channel) KPiX V9 chips available –Pressure dependence measured and data corrected TGEM made a quantum jump and had a beam test at CERN –Will have another one in Oct  RD51 setup 33cmx100cm unit chamber construction proceeding –First 5 foils of 33cmx100cm delivered and one HV tested Mechanical design being worked out for constructing 33cmx100cm unit chambers and 1mx1m planes for DHCAL testing Sept. 24, GEM DHCAL, J. Yu

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