The study of GEM detector based on APV25 at CIAE

Slides:

Advertisements

Similar presentations

GEM Chambers at BNL The detector from CERN, can be configured with up to 4 GEMs The detector for pad readout and drift studies, 2 GEM maximum.

Advertisements

Kondo GNANVO Florida Institute of Technology, Melbourne FL.

CMS GEM Workshop III, April 20, 2012

A Practical Method to Estimate the Spatial Resolution of GEM Detector Rensheng Wang ( 王仁生 ) Tsinghua U. ( 清华大学 ) The Fourth Workshop on Hadron Physics.

Data Acquisition System for 2D X-Ray Detector Beijing Synchrotron Radiation Facility (BSRF) located at Institute of High Energy Physics is the first synchrotron.

D. Peterson, “Status of the Cornell/Purdue Program” TPC R&D Mini Workshop, Orsay 12-January Status of the Cornell/Purdue Program: first events with.

Tests of a 10cm by 10cm triple GEM detector

Xiaodong Wang ( 王晓冬 ) School of Nuclear Science and Technology Lanzhou University, Lanzhou, China MPGD activities at Lanzhou University July 5, 2013.

Gain measurements of Triple Gas Electron Multiplier (GEM) detector with zigzag readout strips V. BHOPATKAR, E. ESPOSITO, E. HANSEN, J. TWIGGER M. HOHLMANN.

Position-sensitive detectors of thermal neutrons: types, characteristics, applications. A.V. Churakov IX International school-seminar: Actual problems.

GEM progress from Chinese collaboration Yuxiang Zhao University of Science and Technology of China Aug 20,

1 July GEM R&D Activity in USTC Yi Zhou University of Science & Technology of China.

1 Update on GEMs (Chinese Collaboration) University of Science & Technology of China Yi Zhou SoLID Collaboration Meeting, Jlab, USA, Sep. 14 ~ Sep.15,

The work of GEM foil at CIAE

Update on APV25-SRS Electronics Kondo Gnanvo. Outline Various SRS Electronics Status of the APV25-SRS UVa Test of the SRU with multiple.

PHENIX RPC in China Li Ye Shouyang Hu Xiaomei LI China Institute of Atomic Energy

The Progress of PHENIX RPC Production in China Shouyang HU Xiaomei LI Shouyang HU Xiaomei LI Science and Technology on Nuclear Data Laboratory China Institute.

Neutron Structure Functions and a Radial Time Projection Chamber The Structure of the Neutron The BoNuS Experiment at CLAS A New Proton Recoil Detector.

Development of Tracking Detector with GEM Kunihiro Fujita RCNP, Osaka Univ. Yasuhiro Sakemi CYRIC, Tohoku Univ. Masaharu Nomachi Dep. of Phys., Osaka Univ.

GEM chambers for SoLID Nilanga Liyanage University of Virginia.

Performance of a Large-Area GEM Detector Prototype for the Upgrade of the CMS Muon Endcap System Vallary Bhopatkar M. Hohlmann, M. Phipps, J. Twigger,

GEM foil and Simulation work at CIAE Xiaomei Li Shouyang Hu, Jing Zhou, Chao Shan, Siyu Jian and Shuhua Zhou Science and Technology Science and Technology.

F.Murtas1IMAGEM DDG GEM technology for X-ray and Gamma imaging IMAGEM l Detector setup l First results on X-ray imaging l First results on Gamma ray imaging.

GEM Trackers for Super BigBite Spectrometer (SBS) in Hall JLab The Super Big Bite Spectrometer (SBS) is one of the major new equipment in hall A in.

Update on the Triple GEM Detectors for Muon Tomography K. Gnanvo, M. Hohlmann, L. Grasso, A. Quintero Florida Institute of Technology, Melbourne, FL.

GEM Detector R&D at Florida Tech – “Get to know each other” –

The GEM activities at Tsinghua University Zhigang Xiao 1, Yan Huang 1, Rensheng Wang 1, Haiyan Gao 1,2 1 Department of Physics, Tsinghua University 2 Dept.

SoLiD/PVDIS DAQ Alexandre Camsonne. DAQ limitations Electronics Data transfer.

Study of the Spatial Resolution and Muon Tomographic Imaging Properties of Glass RPCs Qite Li Peking University.

1 GEM R&D Activity in USTC Yi Zhou University of Science & Technology of China.

Test of the GEM Front Tracker for the SBS Spectrometer at Jefferson Lab F. Mammoliti, V. Bellini, M. Capogni, E. Cisbani, E. Jensen, P. Musico, F. Noto,

Large-Area GEM Detector Development at CMS, RD51, and Fl. Tech – A brief overview – Marcus Hohlmann Florida Institute of Technology, Melbourne, FL PHENIX.

Quality control for large volume production GEM detectors Christopher Armaingaud On behalf of the collaboration GEMs for CMS.

SoLID DAQ A.Camsonne SoLID collaboration meeting November 8 th 2013.

Beam Test of a Large-Area GEM Detector Prototype for the Upgrade of the CMS Muon Endcap System Vallary Bhopatkar M. Hohlmann, M. Phipps, J. Twigger, A.

The Preliminary Test and Plans of GEM Detector in Tsinghua Rensheng Wang ( 王仁生 ) Tsinghua U. ( 清华大学 ) The Third Workshop on Haron Physics in China and.

GEM R&D updates from Chinese groups Yuxiang Zhao University of Science and Technology of China May 24,

The BoNuS Detector: A Radial Time Projection Chamber for tracking Spectator Protons Howard Fenker, Jefferson Lab This work was partially supported by DOE.

FNAL beam test data analysis A Hands-on session at CMS Upgrade School Aiwu Zhang Florida Institute of Technology On behalf of the CMS GEM collaboration.

Institute of Basic Science Rare Isotope Science Project PANGEA P hoton detector system for A stro-science and N uclear physics with GE rmanium A rray 2015.

TPC for ILC and application to Fast Neutron Imaging L. An 2, D. Attié 1, Y. Chen 2, P. Colas 1, M. Riallot 1, H. Shen 2, W. Wang 1,2, X. Wang 2, C. Zhang.

GEM Integrated PCB readout and cooling

Progress of GEM R&D in Lanzhou Univerity

A particle detector for educational purposes

Test beam straw prototype production status

GEM and MicroMegas R&D Xiaomei Li Science and Technology

Gas Detectors (GEM) The 6th Egyptian school for high energy physics

GEM, applications for SR experiments and tracking in HEP

Progress of GEM R&D in Lanzhou University

Shubin Liu, Binxiang Qi, Siyuan Ma, Zhongtao Shen, Guangyuan Yuan,

Monte Carlo simulation of the GEM-based neutron detector

MPGD Detectors and Electronics at CIAE

Development of Hard X-ray Detector with GEM

Gaseous Beam Position Detectors, with Low Cost and Low Material Budget

Application of Nuclear Physics

Mirco Christmann MAGIX Collaboration Meeting 2017

GEM-based Digital Hadron Calorimetry for SiD

Development of Gas Electron Multiplier Detectors for Muon Tomography

GEM-based Digital Hadron Calorimetry for SiD

Online Data Processing and Hit Time Reconstruction for Silicon Detector Readout C. Irmler, M. Friedl, M. Pernicka The KEKB factory (Tsukuba, Japan) will.

ME instrument and in-orbit performance

August 19th 2013 Alexandre Camsonne

ZDD status BESIII Collaboration Meeting, September 2012

PERFORMANCE OF THE METAL RADIATION MONITORING SYSTEMS

Measurements of Stability of Gas Electron Multiplier (GEM)

Gain measurements of Chromium GEM foils

DAQ for SBS GEM SBS collaboration meeting August 6th 2019

Experiment DAQ and trigger GMn SBS Collaboration Meeting

A DLC μRWELL with 2-D Readout

DAQ and visualization software

Presentation transcript:

The study of GEM detector based on APV25 at CIAE Shouyang Hu(胡守扬),Xiaomei Li,Siyu Jian,Jing Zhou,Xinglong Li China Institute of Atomic Energy (中国原子能科学研究院) 5 August 2015 Duke Kunshan 1

outline The GEM detector. The electric system Test results & our plans 2

GEM detector The test of GEM detector 10cm*10cm 3 GEM foils Cathode readout 3mm 2mm 3

GEM detector The progress in the test of GEM detector 10cm*10cm 3 GEM foils Argon:CO2=70% : 30%; 256 channels per dimension, 512 channels in total ; 400um Cathode GEM1 GEM2 GEM3 readout 3mm 2mm 4

The test system 5

Spatial resolution and energy resolution. When: Slit(um): 20; Ar: CO2=70: 30; HV: 3600V; Cathode GEM1 GEM2 GEM3 readout 3mm 2mm 2mm 2mm 6

Spatial resolution and energy resolution. Spatial resolution≈76um(sigma) x counts Pic.1 x 7 Pic. 2 Pic. 3

ε=19.6% cut the baseline from the raw signal integral of the x axis Spatial resolution and energy resolution. cut the baseline from the raw signal integral of the x axis ε=19.6% 8

256 channels for each dimension( 512 channel in total); CIAE imaging @ about 1k sample rate X ray Energy: 10KeV; 256 channels for each dimension( 512 channel in total); 4 APV FECs were used (2 for each dimension) 9

CIAE imaging @ about 1k sample rate The maximum sample rate is several KHz. The sample rate is not high. APV: 277KHz*141(1 frame)*12bit(12bit ADC)=60MB/s V2718: 70MB/s (v2718 manual) VME crate: 80Mb/s(VME64) improve Firmware; Data compression; The connection between APV and detector is not very reliable. More reliable connector should be introduced in. 10 10

The upgrade for the next step The upgrade of Lab Lead box X-ray generator 3D GEM test platform 11

The Plans and future experiments in our group further test of the spatial resolution, energy resolution; X-imaging; further test of the unity of GEM detector and APV25 readout electronics; A GEM detector with 10B transfer layer was ready for neutron imaging; 12

Thank you ！ 13