AI-assisted Optimization of the ECCE Tracking System at the Electron Ion Collider

C. Fanelli,Z. Papandreou,K. Suresh,J. K. Adkins,Y. Akiba,A. Albataineh,M. Amaryan,I. C. Arsene,C. Ayerbe Gayoso,J. Bae,X. Bai,M. D. Baker,M. Bashkanov,R. Bellwied,F. Benmokhtar,V. Berdnikov,J. C. Bernauer, F. Bock,W. Boeglin,M. Borysova,E. Brash, P. Brindza,W. J. Briscoe,M. Brooks,S. Bueltmann,M. H. S. Bukhari, A. Bylinkin,R. Capobianco,W. -C. Chang,Y. Cheon,K. Chen,K. -F. Chen,K. -Y. Cheng,M. Chiu,T. Chujo,Z. Citron,E. Cline, E. Cohen, T. Cormier,Y. Corrales Morales,C. Cotton, J. Crafts,C. Crawford, S. Creekmore, C. Cuevas,J. Cunningham, G. David,C. T. Dean,M. Demarteau,S. Diehl,N. Doshita,R. Dupre,J. M. Durham,R. Dzhygadlo, R. Ehlers,L. El Fassi,A. Emmert,R. Ent,R. Fatemi,S. Fegan,M. Finger,M. Finger Jr., J. Frantz,M. Friedman,I. Friscic,D. Gangadharan,S. Gardner,K. Gates,F. Geurts,R. Gilman,D. Glazier, E. Glimos,Y. Goto, N. Grau, S. V. Greene,A. Q. Guo,L. Guo, S. K. Ha,J. Haggerty,T. Hayward,X. He,O. Hen,D. W. Higinbotham,M. Hoballah,T. Horn, A. Hoghmrtsyan, P. -h. J. Hsu, J. Huang,G. Huber,A. Hutson,K. Y. Hwang,C. Hyde, M. Inaba,T. Iwata,H. S. Jo,K. Joo,N. Kalantarians,G. Kalicy, K. Kawade, S. J. D. Kay,A. Kim, B. Kim,C. Kim,M. Kim,Y. Kim,E. Kistenev,V. Klimenko,S. H. Ko,I. Korover,W. Korsch,G. Krintiras,S. Kuhn, C. -M. Kuo, T. Kutz,J. Lajoie,D. Lawrence,S. Lebedev,H. Lee,J. S. H. Lee,S. W. Lee,Y. -J. Lee,W. Li,W. B. Li,X. Li,Y. T. Liang,S. Lim,C. -h. Lin, D. X. Lin,K. Liu,M. X. Liu,K. Livingston,N. Liyanage,W. J. Llope,C. Loizides,E. Long,R. -S. Lu,Z. Lu, W. Lynch,D. Marchand,M. Marcisovsky,P. Markowitz,H. Marukyan, P. McGaughey, M. Mihovilovic,R. G. Milner,A. Milov,Y. Miyachi,A. Mkrtchyan,P. Monaghan,R. Montgomery,D. Morrison,A. Movsisyan,H. Mkrtchyan,A. Mkrtchyan,C. Munoz Camacho,M. Murray,K. Nagai,J. Nagle,I. Nakagawa,C. Nattrass,D. Nguyen,S. Niccolai,R. Nouicer,G. Nukazuka,M. Nycz,V. A. Okorokov, S. Oresic,J. D. Osborn, C. O'Shaughnessy,S. Paganis,S. F. Pate,M. Patel,C. Paus, G. Penman,M. G. Perdekamp,D. V. Perepelitsa, H. Periera da Costa, K. Peters,W. Phelps,E. Piasetzky,C. Pinkenburg,I. Prochazka, T. Protzman,M. L. Purschke, J. Putschke,J. R. Pybus, R. Rajput-Ghoshal, J. Rasson,B. Raue,K. F. Read,K. Roed,R. Reed,J. Reinhold,E. L. Renner,J. Richards,C. Riedl,T. Rinn,J. Roche, G. M. Roland,G. Ron,M. Rosati,C. Royon,J. Ryu,S. Salur,N. Santiesteban,R. Santos,M. Sarsour, J. Schambach,A. Schmidt,N. Schmidt, C. Schwarz, J. Schwiening,R. Seidl,A. Sickles,P. Simmerling, S. Sirca,D. Sharma,Z. Shi, T. -A. Shibata,C. -W. Shih,S. Shimizu,U. Shrestha,K. Slifer,K. Smith,D. Sokhan, R. Soltz,W. Sondheim,J. Song,I. I. Strakovsky,P. Steinberg, P. Stepanov,J. Stevens,J. Strube,P. Sun,X. Sun, V. Tadevosyan,W. -C. Tang,S. Tapia Araya,S. Tarafdar, L. Teodorescu,A. Timmins, L. Tomasek,N. Trotta,R. Trotta,T. S. Tveter,E. Umaka,A. Usman,H. W. van Hecke,C. Van Hulse,J. Velkovska,E. Voutier,P. K. Wang,Q. Wang,Y. Wang,D. P. Watts, N. Wickramaarachchi,L. Weinstein,M. Williams,C. -P. Wong,L. Wood,M. H. Wood, C. Woody,B. Wyslouch,Z. Xiao,Y. Yamazaki, Y. Yang,Z. Ye, H. D. Yoo, M. Yurov,N. Zachariou,W. A. Zajc,W. Zha, J. Zhang,Y. Zhang,Y. X. Zhao,X. Zheng,P. Zhuang

arxiv（2022）

引用 2|浏览52

暂无评分

摘要

The Electron-Ion Collider (EIC) is a cutting-edge accelerator facility that will study the nature of the "glue" that binds the building blocks of the visible matter in the universe. The proposed experiment will be realized at Brookhaven National Laboratory in approximately 10 years from now, with detector design and R&D currently ongoing. Notably, EIC is one of the first large-scale facilities to leverage Artificial Intelligence (AI) already starting from the design and R&D phases. The EIC Comprehensive Chromodynamics Experiment (ECCE) is a consortium that proposed a detector design based on a 1.5T solenoid. The EIC detector proposal review concluded that the ECCE design will serve as the reference design for an EIC detector. Herein we describe a comprehensive optimization of the ECCE tracker using AI. The work required a complex parametrization of the simulated detector system. Our approach dealt with an optimization problem in a multidimensional design space driven by multiple objectives that encode the detector performance, while satisfying several mechanical constraints. We describe our strategy and show results obtained for the ECCE tracking system. The AI-assisted design is agnostic to the simulation framework and can be extended to other sub-detectors or to a system of sub-detectors to further optimize the performance of the EIC detector.

查看译文

关键词

electron optimization collider,ecce tracking system,ai-assisted

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