CORE -- a COmpact detectoR for the EIC

CORE Collaboration,R. Alarcon,M. Baker, V. Baturin, P. Brindza,S. Bueltmann,M. Bukhari,R. Capobianco, E. Christy,S. Diehl, M. Dugger,R. Dupré,R. Dzhygadlo, K. Flood,K. Gnanvo,L. Guo,T. Hayward,M. Hattawy,M. Hoballah, M. Hohlmann,C. E. Hyde, Y. Ilieva,W. W. Jacobs, K. Joo,G. Kalicy, A. Kim,V. Kubarovsky,A. Lehmann,W. Li,D. Marchand, H. Marukyan,M. J. Murray, H. E. Montgomery, V. Morozov, I. Mostafanezhad,A. Movsisyan,E. Munevar,C. Muñoz Camacho, P. Nadel-Turonski,S. Niccolai,K. Peters,A. Prokudin,J. Richards,B. G. Ritchie,U. Shrestha, B. Schmookler,G. Schnell, C. Schwarz,J. Schwiening,P. Schweitzer,P. Simmerling, H. Szumila-Vance,S. Tripathi,N. Trotta, G. Varner,A. Vossen,E. Voutier, N. Wickramaarachchi,N. Zachariou

arxiv（2022）

引用 0|浏览33

暂无评分

摘要

The COmpact detectoR for the Eic (CORE) Proposal was submitted to the EIC "Call for Collaboration Proposals for Detectors". CORE comprehensively covers the physics scope of the EIC Community White Paper and the National Academies of Science 2018 report. The design exploits advances in detector precision and granularity to minimize size. The central detector includes a 3Tesla, 2.5m solenoid. Tracking is primarily silicon. Electromagnetic calorimetry is based on the high performance crystals. Ring-imaging Cherenkov detectors provide hadronic particle identification.

查看译文

关键词

compact detector,core

AI 理解论文

溯源树

样例

生成溯源树，研究论文发展脉络

Chat Paper

正在生成论文摘要