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Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 SoLID status and Chinese contribution 1 Wang Yi Department of Engineering.

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Presentation on theme: "Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 SoLID status and Chinese contribution 1 Wang Yi Department of Engineering."— Presentation transcript:

1 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 SoLID status and Chinese contribution 1 Wang Yi Department of Engineering Physics Tsinghua University, Beijing, China 1

2 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 Outline Status of SoLID Chinese activities on GEM Development of SoLID- TOF Development of ECAL Summary 2

3 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 3 Why SoLID JLab 6 GeV: precision measurements high luminosity (10 39 ) but small acceptance (HRS/HMS: < 10 msr) or large acceptance but low luminosity (CLAS6: 10 34 ) JLab 12 GeV upgrade opens up a window of opportunities (DIS, SIDIS, Deep Exclusive Processes) to study valence quark (3-d) structure of the nucleon and other high impact physics (PVDIS, J/ , …) High precision in multi-dimension or rare processes requires very high statistics  large acceptance and high luminosity CLAS12: luminosity upgrade (one order of magnitude) to 10 35 To fully exploit the potential of 12 GeV, taking advantage of the latest technical (detectors, DAQ, simulations, …) development  SoLID: large acceptance detector can handle 10 37 luminosity (no baffles) 10 39 with baffles Solenoidal Large Intensity Device

4 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 4 Overview of SoLID Full exploitation of JLab 12 GeV Upgrade  A Large Acceptance Detector AND Can Handle High Luminosity (10 37 -10 39 ) Take advantage of latest development in detectors, data acquisitions and simulations Reach ultimate precision for SIDIS (TMDs), PVDIS in high-x region and threshold J/  5 highly rated experiments approved (+3) Three SIDIS experiments, one PVDIS, one J/  production (+ three run group experiments) Strong collaboration (250+ collaborators from 70+ institutes, 13 countries) Significant international contributions (Chinese collaboration)

5 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 5 Strong collaboration (250+ collaborators from 70+ institutes,13 countries GEM detectors and MRPC: Chinese Collaboration in Hall A at JLab SoLID Detector Overview

6 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 6 SoLID Detector Overview

7 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 7 SoLID Detector/DAQ/Tracking /Duke

8 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 8 SoLID Status Review committee: “The project was in a good state to move forward”. Long range plan: SoLID white paper, SoLID presentations QCD Hadron highest recommendation include SoLID On DOE radar screen, support pre-R&D, plan science review

9 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 9 SoLID-MRPC: Tsinghua University, USTC, JLab, Duke ECAL : SDU (China), UVA, W&M. Chinese SoLID collaboration

10 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 10 R&D on GEM

11 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 11 Large-area GEM R&D at Tsinghua & IMP

12 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 12 Performance

13 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 13 Large-area GEM R&D at USTC

14 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 14 Large-area GEM Prototypes

15 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 15 Performance

16 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 16 Going to Soild-GEM Size (~1m x 0.5m)

17 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 17

18 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 18 Continued

19 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 19 R&D on GEM foils

20 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 20 GEM foil Lab

21 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 21 GEM foil production process

22 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 22 GEM foils produced (30cm x 30cm)

23 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 23 GEM foils produced (40cm x 40cm)

24 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 24 GEM readout

25 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 25 “INFN” readout system

26 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 26 Readout test with a GEM chamber

27 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 27 Development effort at USTC

28 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 28 CASAGEM-based readout

29 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 29 SFE16-based readout

30 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 30 Development of SoLID-TOF SoLID-TOF requirement and structure Development of MRPC prototype Beam test of MRPC Production workshop

31 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 Main requirements for TOF The MRPC is developed for the TOF of SoLID Main Requirements for TOF: –  /k separation up to 2.5GeV/c – Time resolution < 100ps – Rate capability > 10kHz/cm² 31

32 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 Conceptual design of SOLID-TOF MRPC TOF wall we designed contain 150 MRPC modules in total, with 50 gas boxes and 3 counters in each box, covering the area of 10m². MRPC1 MRPC2 MRPC3 100cm 16cm 28cm The MRPC module we tested is the prototype of smallest one. Total channel ~3600 32

33 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 33 Standard parameters: Resistivity of glass: ~10 12 Ω.cm Time resolution <100ps Efficiency >95% Dark current: a few nA Noise ~1Hz/cm 2 Rate <100 Hz/cm 2 MRPC is made of thin glass, large area and cheap The inner glasses are floating, take and keep correct voltage by electrostatics. it is transparent to fast signals Thin gap->good timing Multi-gap-> high efficiency Working mechanism of MRPC Read out Insulator Carbon Insulator Resistive plate

34 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 Performance of low resistive glass 32cm x 30cm Performance of low resistive glass 34

35 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 Volume resistivity: ~10 10 .cm 363m m 219mm 171m m 25mm Length/mmWidth/mmThickness/mm Gas gap--0.25×10 Inner glass320130-1710.7 Outer glass330138-1821.1 Mylar335153-1980.18 Inner PCB350182-2281.6 Outer PCB350172-2180.8 Honeycomb330153-1986 Material dimensions A MRPC prototype for SoLID-TOF 35

36 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 Cosmic test Cosmic ray test@Tsinghua August, 2011 Efficiency > 95% @ 96kV/cm (6.0kV) Time resolution: ~ 52ps PMT3PMT4PMT0PMT2PMT1 MRPC Cosmic Ray Muon 36

37 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 Beam test @ Hall A 37 Shield High Energy e- Top View PMT 1 PMT 2 PMT 3 PMT 4 PMT 0 Target Test setup The diagram of DAQ system

38 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 Test results (1) 38 Time Resolution: ~75ps Efficiency: >95%

39 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 39 Voltage: 6800V Flux:11kHz/cm² Efficiency:~95% Time Resolution: 78ps Flux:16kHz/cm² Efficiency:~95% Time Resolution: 82ps Test results (2)

40 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 40 TOF electronics Fast preamplifier : Maxim3760 (Tsinghua and RICE Univ.) Ninos (TOT) (ALICE) Padi (TOT) (GSI) CAD (TOT) (Tsinghua) QDC (CAEN, 25fC/bin) TDC HPTDC (ALICE, 25ps/ch) GET4 (GSI, 25ps/ch) FPGA TDC (GSI and other) DAQ

41 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 41 CAD: Tsinghua amplifier Supply Voltage3.3 V Technology0.35μm CMOS Chip PackageBGA package Preamplifier Current Gain2 Preamplifier Bandwidth>100 MHz Power Consumption<10 mW/ch inputSingle-end input outputSingle-end CMOS logical output Specifications

42 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 42 Test with signal generator and MRPC

43 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 Tsinghua-FPGA TDC Cyclone-II FPGA EP2C35F484 C6 100M Ethernet Readout with TCP/IP support Socket for TCXO (opt.) 24 channels, Ethernet readout Resolution ~30ps 43

44 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 44 RPC workshop: http://www.nuctech.com/en/index.aspx

45 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 45 MRPC mass production

46 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 46 EM calorimeter of SoLID HADRON2014, C. Feng46 One EM calorimeter unit: Shashlyk detector + pre-shower

47 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 47 Pre-shower detector prototype Hexagon scintillator with groove for light fiber, Make in Kedi company, China. Scintillator couple to wave length shift light fiber, and packet with tyvek. Light yield of the prototype for single MIP. More than 60 photos are collected for MIP.

48 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 Summary 48 Full exploitation of JLab 12 GeV Upgrade  SOLID: A Large Acceptance Detector that can handle High Luminosity (10 37 -10 39 ) Highest rated physics program: TMDs, PVDIS, threshold J/  and GPDs Chinese group has deep collaboration in SoLID-GEM, TOF and ECAL We are trying to get funding for the construction of GEM and MRPC

49 Wang Yi, Tsinghua University Joint meeting of HALL A and HALL C, 2015.7.17-18 49

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