Study of $\phi$-meson production in $p$$+$Al, $p$$+$Au, $d$$+$Au, and   $^3$He$+$Au collisions at $\sqrt{s_{_{NN}}}=200$ GeV

U. Acharya; A. Adare; C. Aidala; N.N. Ajitanand; Y. Akiba; M. Alfred,; V. Andrieux; N. Apadula; H. Asano; B. Azmoun; V. Babintsev; M. Bai; N.S.; Bandara; B. Bannier; K.N. Barish; S. Bathe; A. Bazilevsky; M. Beaumier; S.; Beckman; R. Belmont; A. Berdnikov; Y. Berdnikov; L. Bichon; B. Blankenship,; D.S. Blau; J.S. Bok; V. Borisov; K. Boyle; M.L. Brooks; J. Bryslawskyj; V.; Bumazhnov; S. Campbell; V. Canoa Roman; R. Cervantes; C.-H. Chen; M. Chiu,; C.Y. Chi; I.J. Choi; J.B. Choi; T. Chujo; Z. Citron; M. Connors; R. Corliss,; Y. Corrales Morales; N. Cronin; M. Csan\'ad; T. Cs\"org\H{o}; T.W. Danley; A.; Datta; M.S. Daugherity; G. David; C.T. Dean; K. DeBlasio; K. Dehmelt; A.; Denisov; A. Deshpande; E.J. Desmond; A. Dion; P.B. Diss; D. Dixit; J.H. Do,; V. Doomra; A. Drees; K.A. Drees; J.M. Durham; A. Durum; H. En'yo; A.; Enokizono; R. Esha; S. Esumi; B. Fadem; W. Fan; N. Feege; D.E. Fields; M.; Finger; Jr.; M. Finger; D. Firak; D. Fitzgerald; S.L. Fokin; J.E. Frantz; A.; Franz; A.D. Frawley; Y. Fukuda; P. Gallus; C. Gal; P. Garg; H. Ge; M. Giles,; F. Giordano; A. Glenn; Y. Goto; N. Grau; S.V. Greene; M. Grosse Perdekamp; T.; Gunji; H. Guragain; T. Hachiya; J.S. Haggerty; K.I. Hahn; H. Hamagaki; H.F.; Hamilton; J. Hanks; S.Y. Han; M. Harvey; S. Hasegawa; T.O.S. Haseler; K.; Hashimoto; T.K. Hemmick; X. He; J.C. Hill; K. Hill; A. Hodges; R.S. Hollis,; K. Homma; B. Hong; T. Hoshino; N. Hotvedt; J. Huang; K. Imai; M. Inaba; A.; Iordanova; D. Isenhower; D. Ivanishchev; B.V. Jacak; M. Jezghani; X. Jiang,; Z. Ji; B.M. Johnson; D. Jouan; D.S. Jumper; S. Kanda; J.H. Kang; D.; Kapukchyan; S. Karthas; D. Kawall; A.V. Kazantsev; J.A. Key; V. Khachatryan,; A. Khanzadeev; A. Khatiwada; B. Kimelman; C. Kim; D.J. Kim; E.-J. Kim; G.W.; Kim; M. Kim; T. Kim; D. Kincses; A. Kingan; E. Kistenev; R. Kitamura; J.; Klatsky; D. Kleinjan; P. Kline; T. Koblesky; B. Komkov; D. Kotov; L. Kovacs,; S. Kudo; B. Kurgyis; K. Kurita; M. Kurosawa; Y. Kwon; J.G. Lajoie; D.; Larionova; A. Lebedev; S. Lee; S.H. Lee; M.J. Leitch; Y.H. Leung; N.A. Lewis,; S.H. Lim; M.X. Liu; X. Li; X. Li; V.-R. Loggins; D.A. Loomis; K. Lovasz; D.; Lynch; S. L\"ok\"os; T. Majoros; Y.I. Makdisi; M. Makek; A. Manion; V.I.; Manko; E. Mannel; M. McCumber; P.L. McGaughey; D. McGlinchey; C. McKinney; A.; Meles; M. Mendoza; A.C. Mignerey; A. Milov; D.K. Mishra; J.T. Mitchell; M.; Mitrankova; Iu. Mitrankov; G. Mitsuka; S. Miyasaka; S. Mizuno; A. Mohamed,; A.K. Mohanty; M.M. Mondal; P. Montuenga; T. Moon; D.P. Morrison; T.V.; Moukhanova; B. Mulilo; T. Murakami; J. Murata; A. Mwai; K. Nagai; K.; Nagashima; T. Nagashima; J.L. Nagle; M.I. Nagy; I. Nakagawa; H. Nakagomi; K.; Nakano; C. Nattrass; S. Nelson; P.K. Netrakanti; T. Niida; S. Nishimura; R.; Nouicer; N. Novitzky; T. Nov\'ak; G. Nukazuka; A.S. Nyanin; E. O'Brien; C.A.; Ogilvie; J. Oh; J.D. Orjuela Koop; M. Orosz; J.D. Osborn; A. Oskarsson; G.J.; Ottino; K. Ozawa; R. Pak; V. Pantuev; V. Papavassiliou; J.S. Park; S. Park,; M. Patel; S.F. Pate; J.-C. Peng; W. Peng; D.V. Perepelitsa; G.D.N. Perera,; D.Yu. Peressounko; C.E. PerezLara; J. Perry; R. Petti; M. Phipps; C.; Pinkenburg; R. Pinson; R.P. Pisani; M. Potekhin; A. Pun; M.L. Purschke; P.V.; Radzevich; J. Rak; N. Ramasubramanian; B.J. Ramson; I. Ravinovich; K.F. Read,; D. Reynolds; V. Riabov; Y. Riabov; D. Richford; T. Rinn; S.D. Rolnick; M.; Rosati; Z. Rowan; J.G. Rubin; J. Runchey; A.S. Safonov; B. Sahlmueller; N.; Saito; T. Sakaguchi; H. Sako; V. Samsonov; M. Sarsour; S. Sato; B. Schaefer,; B.K. Schmoll; K. Sedgwick; R. Seidl; A. Sen; R. Seto; P. Sett; A. Sexton; D.; Sharma; I. Shein; Z. Shi; M. Shibata; T.-A. Shibata; K. Shigaki; M.; Shimomura; T. Shioya; P. Shukla; A. Sickles; C.L. Silva; D. Silvermyr; B.K.; Singh; C.P. Singh; V. Singh; M. Slune\v{c}ka; K.L. Smith; M. Snowball; R.A.; Soltz; W.E. Sondheim; S.P. Sorensen; I.V. Sourikova; P.W. Stankus; M.; Stepanov; S.P. Stoll; T. Sugitate; A. Sukhanov; T. Sumita; J. Sun; Z. Sun; J.; Sziklai; R. Takahama; A. Taketani; K. Tanida; M.J. Tannenbaum; S. Tarafdar,; A. Taranenko; G. Tarnai; R. Tieulent; A. Timilsina; T. Todoroki; M.; Tom\'a\v{s}ek; C.L. Towell; R. Towell; R.S. Towell; I. Tserruya; Y. Ueda; B.; Ujvari; H.W. van Hecke; J. Velkovska; M. Virius; V. Vrba; N. Vukman; X.R.; Wang; Z. Wang; Y. Watanabe; Y.S. Watanabe; F. Wei; A.S. White; C.P. Wong,; C.L. Woody; M. Wysocki; B. Xia; L. Xue; C. Xu; Q. Xu; S. Yalcin; Y.L.; Yamaguchi; H. Yamamoto; A. Yanovich; I. Yoon; J.H. Yoo; I.E. Yushmanov; H.; Yu; W.A. Zajc; A. Zelenski; S. Zhou; L. Zou

arXiv:2203.06087·nucl-ex·July 27, 2022

Study of $\phi$-meson production in $p$$+$Al, $p$$+$Au, $d$$+$Au, and $^3$He$+$Au collisions at $\sqrt{s_{_{NN}}}=200$ GeV

U. Acharya, A. Adare, C. Aidala, N.N. Ajitanand, Y. Akiba, M. Alfred,, V. Andrieux, N. Apadula, H. Asano, B. Azmoun, V. Babintsev, M. Bai, N.S., Bandara, B. Bannier, K.N. Barish, S. Bathe, A. Bazilevsky, M. Beaumier, S., Beckman, R. Belmont, A. Berdnikov, Y. Berdnikov, L. Bichon

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TL;DR

This study measures $\,\,\phi$ meson production in small nuclear collisions at 200 GeV, providing insights into possible quark-gluon plasma formation and the different production mechanisms across collision systems.

Contribution

It presents new measurements of $\,\phi$ mesons in various small collision systems and compares them with theoretical models to explore medium formation and production mechanisms.

Findings

01

Possible quark-gluon plasma formation in small systems.

02

Different production mechanisms dominate in different collision systems.

03

Limited signs of strangeness enhancement and jet quenching.

Abstract

Small nuclear collisions are mainly sensitive to cold-nuclear-matter effects; however, the collective behavior observed in these collisions shows a hint of hot-nuclear-matter effects. The identified-particle spectra, especially the $ϕ$ mesons which contain strange and antistrange quarks and have a relatively small hadronic-interaction cross section, are a good tool to study these effects. The PHENIX experiment has measured $ϕ$ mesons in a specific set of small collision systems $p$ $+$ Al, $p$ $+$ Au, and $^{3}$ He $+$ Au, as well as $d$ $+$ Au [Phys. Rev. C {\bf 83}, 024909 (2011)], at $s_{_{N N}} = 200$ GeV. The transverse-momentum spectra and nuclear-modification factors are presented and compared to theoretical-model predictions. The comparisons with different calculations suggest that quark-gluon plasma may be formed in these small collision systems at $s_{_{N N}} = 200$ GeV.…

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