Generic Detector R&D for an Electron Ion ColliderAdvisory Committee meeting Dec. 13-14, 2012
T. Ludlam
http://arxiv.org/abs/1212.1701
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EIC Generic Detector R&D ProgramEstablish a peer reviewed program of R&D to enable EIC experiments
Program initiated January 2011 with first call for proposals.Advisory Committee meetings: May 2011, December 2011, May 2012
22 proposals received. 10 activities funded.
Committee has stressed the formation of consortia of universities and national labs, and quantitative understanding of performance requirements (e.g. for “golden measurements” from 2010 INT workshop).
Advisory Committee members: (Glenn Young, 2012 Chair)Marcel Demarteau (Argonne) Carl Haber (LBNL) Robert Klanner (Hamburg) Ian Shipsey (Purdue) Rick Van Berg (Penn) Jerry Va’vra (SLAC)Glenn Young (Jlab)
Website: https://wiki.bnl.gov/conferences/index.php/EIC_R%25D
RD 2012-9 test setup in JLab Hall A
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EIC Detector R&D: funded projects through May 2012
Compact Calorimetry
Particle ID; Simulation; Hermiticity
Hi density photon detector
Simulation; Tracking; Particle ID; Hermiticity
Compact tracking; Hermiticity
Simulation tools
Novel technique for e-beam polarimetry
Prop. No. Title Contact Institutions
RD 2011-1; RD 2012-14
Tungsten fiber calorimeters H. Huang/ C. Woody
UCLA, TAMU, Penn St., BNL, USTC
RD 2011-3; RD 2012-7
DIRC -based PID P. Nadel-Turonski Catholic Univ. of America, Old Dominion Univ., Univ. of South Carolina, JLab, GSI Darmstadt
RD 2011-5 Radiation resistant Si PM C. Zorn JLab
RD 2011-6; RD 2012-9; RD 2012-16
Tracking/PID/Simulation K. Dehmelt/ T. Hemmick
BNL, BNL/RBRC, Florida Inst. of Technology, Iowar State, LBNL, MIT, Stony Brook Univ., Temple Univ., Univ. Virginia, Yale Univ., JLab
RD 2012-3 Tracking: GEM & Micromegas
B. Surrow, F. Sabatie
CEA Saclay, MIT, Temple Univ.
RD 2012-5 Physics simulations T. Ullrich BNL
RD 2012-11 Spin-light polarimeter D. Dutta Mississippi State Univ., Coll. Of William & Mary, Stony Brook Univ., Gutenberg Univ. (Mainz), UV Charlottesville, ANL, JLab
RD 2012-12 Forward RICH detector V. Kubarovsky JLab, INFN Frascati, INFN Ferrara, Christopher Newport Coll., UTFSM (Valparaiso, Chile)
RD 2012-13 Forward EM pre-shower W. Brooks UTFSM (Valparaiso, Chile)
RD 2012-15 Gem based TRD Z. Xu, M. Shao ANL, BNL, Indiana Univ., USTC (China), VECC (India)
Compact RICH with Si PM
LYSO crystal-based design
e-tagging with GEM TRD
FY13 FY14RD 2011-1
RD 2012-14UCLA H.Huang 198731 110,632$ 55,000$
122,500$ RD 2011-3 Jlab P. Nadel-Turonski 201878 51,910$ 70,094$ 69,094$ RD 2012-7 The Catholic University T. Horn 200821 9,800$ 8,300$ 8,300$
Old Dominion University C. Hyde 199791 53,290$ 54,000$ 55,000$ University of South Carolina T. Cao; Y. llieva 216627 7,606$ 7,606$
RD 2011-5 Jlab 200930 56,800$ RD 2011-6 Stony Brook University K.Dehmelt 200934 50,827$ 25,700$ RD2012-9 Florida Institute of TechnologyMarcus Hohlmann 200940 26,000$ 94,253$ RD2012-16 University of Virginia Nilanga Liyanage 200933 50,000$ 53,600$
Yale Univ Richard Majka 200935 39,907$ 2,520$ 157,000$
RD 2012-8 USTC Yifei Zhang 217054 60,000$ 50,000$ RD 2012-3 Temple Univ/CEA-Saclay B. Surrow 223228 150,000$
RD 2012-11 Mississippi State University D. Dutta 227623 15,000$ RD2012-12 Jlab V. Kubarovsky 229400 25,000$
RD2012-13Universidad Tecnica
Federico Santa Maria, ChileS. Kuleshov Will Brooks
22966746,000$
Subcontract total 449,166$ 667,073$ 469,500$ -$ BNL Overhead 78,850$ 126,652$ 84,445$ -$
18950 Total For subcontracts 528,016$ 793,725$ 553,945$ -$ 16403 RD 2012-5 BNL-Thomas Ullrich 74,500$ 143,000$ 101,500$ 16412 RD 2012-9 BNL-Elke Aschenauer 173,000$ 16438 RD 2012-14 BNL-Craig Woody 45,000$ 16445 RD 2012-15 BNL-Zhangbu Xu 75,000$
Total for EIC R&D 528,016$ 1,161,225$ 696,945$ 101,500$
18950 (subcontracts)
Requested Funding
EIC Detector R&D Funds Distributed
Account Number BNL Contract # FY12 FY11 Institution Project Number
PI/Contacts
General recommendations from previous meetings: shaping the program
Simulation studies strongly encouraged“to maximize acceptance and efficiency for each golden measurement while minimizing machine backgrounds, and backgrounds from other physics processes”.
Importance of the formation of consortia of universities and national labs:• Much work needs to be done on each class of detector technique to identify appropriate
technologies through simulation, prototyping, etc.
• Such consortia are the first step toward building scientific collaborations that can successfully mount EIC experiments.
Explore connections between EIC interests and other R&D programs that are going on inthe world (e.g. HEP, ILC, CERN, FAIR, as well as other NP programs)
Matching the technology to the physics environment• “Proposers need to include a discussion and tables of performance requirements and their
resulting detector specifications to meet them.” (See reference detector designs)
• The community needs to develop an understanding of the radiation dose and backgrounds expected for each of the two machine proposals.