ECCE Sensitivity Studies for Single Hadron Transverse Single Spin   Asymmetry Measurements

R. Seidl; A. Vladimirov; D. Pitonyak; A. Prokudin; 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. Dupr\'e; J. M.; Durham; R. Dzhygadlo; R. Ehlers; L. El Fassi; A. Emmert; R. Ent; C. Fanelli,; 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. E. 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; 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. Li; X. 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; C. Markert; 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.; Ore\v{s}i\'c; J.D. Osborn; C. O'Shaughnessy; S. Paganis; Z Papandreou; 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. Read; K. R{\o}ed; 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; 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; J. Song; I. I. Strakovsky; P. Steinberg; P.; Stepanov; J. Stevens; J. Strube; P. Sun; X. Sun; K. Suresh; V. Tadevosyan,; W.-C. Tang; S. Tapia Araya; S. Tarafdar; L. Teodorescu; D. Thomas; 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; 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; J.; Zhang; Y. Zhang; Y. X. Zhao; X. Zheng; P. Zhuang

arXiv:2207.10890·hep-ex·February 1, 2023

ECCE Sensitivity Studies for Single Hadron Transverse Single Spin Asymmetry Measurements

R. Seidl, A. Vladimirov, D. Pitonyak, A. Prokudin, 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

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TL;DR

This study assesses the feasibility of measuring single hadron transverse spin asymmetries related to the Sivers effect, transversity, and Collins function using simulated e+p collision data with the ECCE detector, demonstrating potential to meet physics goals.

Contribution

It provides a detailed feasibility analysis of single transverse spin asymmetry measurements at an electron-ion collider using the ECCE detector configuration, including simulation-based precision estimates.

Findings

01

ECCE detector can achieve the necessary statistical precision for spin asymmetry measurements.

02

The impact on understanding Sivers functions, transversity, and tensor charges is comparable to previous detector configurations.

03

Simulations show the potential to fulfill physics goals for spin structure studies.

Abstract

We performed feasibility studies for various single transverse spin measurements that are related to the Sivers effect, transversity and the tensor charge, and the Collins fragmentation function. The processes studied include semi-inclusive deep inelastic scattering (SIDIS) where single hadrons (pions and kaons) were detected in addition to the scattered DIS lepton. The data were obtained in {\sc pythia}6 and {\sc geant}4 simulated e+p collisions at 18 GeV on 275 GeV, 18 on 100, 10 on 100, and 5 on 41 that use the ECCE detector configuration. Typical DIS kinematics were selected, most notably $Q^{2} > 1$ GeV $^{2}$ , and cover the $x$ range from $1 0^{- 4}$ to $1$ . The single spin asymmetries were extracted as a function of $x$ and $Q^{2}$ , as well as the semi-inclusive variables $z$ , and $P_{T}$ . They are obtained in azimuthal moments in combinations of the azimuthal angles of the hadron…

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Taxonomy

TopicsParticle physics theoretical and experimental studies · High-Energy Particle Collisions Research · Quantum Chromodynamics and Particle Interactions