Bulletin of the American Physical Society
APS April Meeting 2022
Volume 67, Number 6
Saturday–Tuesday, April 9–12, 2022; New York
Session G04: Implications of the Instrumentation on the Physics Reach of EICInvited Live Streamed
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Sponsoring Units: GHP Chair: Ramona Vogt, LLNL/UC Davis Room: Salon 2 |
Sunday, April 10, 2022 8:30AM - 9:06AM |
G04.00001: EIC Accelerator Design Invited Speaker: Christoph Montag The EIC currently being designed by a partnership between Brookhaven National Laboratory and Jefferson Lab will open exciting new frontiers for research in nuclear physics and QCD. The potential and the associated design requirements of the facility are laid out in detail in a comprehensive White Paper that has been compiled by the US nuclear physics community with world-wide support. We will give an overview of the facility and present latest design advances, with an emphasis on the interaction region and its instrumentation. |
Sunday, April 10, 2022 9:06AM - 9:42AM |
G04.00002: EIC Central Detector Requirements Invited Speaker: Tanja Horn
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Sunday, April 10, 2022 9:42AM - 10:18AM |
G04.00003: EIC Far Forward Detector Design Invited Speaker: Alexander M Jentsch The future Electron-Ion Collider (EIC) in the US starting in the 2030s is poised to be the machine in high-energy nuclear physics to answer longstanding question in hadronic physics. It will be capable of operating at luminosities up to 1034 cm-2s-1, and be the only machine able to collide polarized electron and polarized light / nuclear beams up to the highest A. A major component of the EIC physics program is the detection of diffractive final states which can produce particles very close to the beam (θ < 35 mrad) – the so-called “far-forward” region of the EIC reference detector. Measurement of these diffractive final states requires use of multiple detector sub-systems integrated into the hadron beamline, which provides a challenge for integration with the accelerator magnets and vacuum system. Additionally, the exclusive and diffractive final states measured in the far-forward region can also leverage different machine optics configurations, which provide a tradeoff between detector acceptance and luminosity, and allow for optimal conditions for tagging final state particles in different regions of the far-forward phase space. In this talk, I will discuss these far-forward detector subsystems in detail, as well as challenges faced on the path to realizing this important set of diffractive EIC measurements. |
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