Multi-particle azimuthal correlations for extracting event-by-event   elliptic and triangular flow in Au$+$Au collisions at $\sqrt{s_{_{NN}}}=200$   GeV

A. Adare; C. Aidala; N.N. Ajitanand; Y. Akiba; M. Alfred; N. Apadula,; H. Asano; B. Azmoun; V. Babintsev; A. Bagoly; M. Bai; N.S. Bandara; B.; Bannier; K.N. Barish; S. Bathe; A. Bazilevsky; M. Beaumier; S. Beckman; R.; Belmont; A. Berdnikov; Y. Berdnikov; D.S. Blau; M. Boer; J.S. Bok; K. Boyle,; M.L. Brooks; J. Bryslawskyj; V. Bumazhnov; S. Campbell; V. Canoa Roman; C.-H.; Chen; C.Y. Chi; M. Chiu; I.J. Choi; J.B. Choi; T. Chujo; Z. Citron; M.; Connors; M. Csan\'ad; T. Cs\"org\H{o}; T.W. Danley; A. Datta; M.S.; Daugherity; G. David; K. DeBlasio; K. Dehmelt; A. Denisov; A. Deshpande; E.J.; Desmond; A. Dion; P.B. Diss; J.H. Do; A. Drees; K.A. Drees; J.M. Durham; A.; Durum; A. Enokizono; S. Esumi; B. Fadem; W. Fan; N. Feege; D.E. Fields; M.; Finger; M. Finger; Jr.; S.L. Fokin; J.E. Frantz; A. Franz; A.D. Frawley; C.; Gal; P. Gallus; P. Garg; H. Ge; F. Giordano; A. Glenn; Y. Goto; N. Grau; S.V.; Greene; M. Grosse Perdekamp; T. Gunji; T. Hachiya; J.S. Haggerty; K.I. Hahn,; H. Hamagaki; H.F. Hamilton; S.Y. Han; J. Hanks; S. Hasegawa; T.O.S. Haseler,; K. Hashimoto; X. He; T.K. Hemmick; J.C. Hill; K. Hill; A. Hodges; R.S.; Hollis; K. Homma; B. Hong; T. Hoshino; N. Hotvedt; J. Huang; S. Huang; K.; Imai; M. Inaba; A. Iordanova; D. Isenhower; D. Ivanishchev; B.V. Jacak; M.; Jezghani; Z. Ji; J. Jia; X. Jiang; B.M. Johnson; D. Jouan; D.S. Jumper; S.; Kanda; J.H. Kang; D. Kawall; A.V. Kazantsev; J.A. Key; V. Khachatryan; A.; Khanzadeev; C. Kim; D.J. Kim; E.-J. Kim; G.W. Kim; M. Kim; B. Kimelman; D.; Kincses; E. Kistenev; R. Kitamura; J. Klatsky; D. Kleinjan; P. Kline; T.; Koblesky; B. Komkov; D. Kotov; K. Kurita; M. Kurosawa; Y. Kwon; R. Lacey,; J.G. Lajoie; A. Lebedev; S. Lee; S.H. Lee; M.J. Leitch; Y.H. Leung; N.A.; Lewis; X. Li; X. Li; S.H. Lim; M.X. Liu; S. L\"ok\"os; D. Lynch; 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,; D.E. Mihalik; A. Milov; D.K. Mishra; J.T. Mitchell; G. Mitsuka; S. Miyasaka,; S. Mizuno; A.K. Mohanty; P. Montuenga; T. Moon; D.P. Morrison; S.I. Morrow,; T.V. Moukhanova; T. Murakami; J. Murata; A. Mwai; K. Nagashima; J.L. Nagle,; M.I. Nagy; I. Nakagawa; H. Nakagomi; K. Nakano; C. Nattrass; P.K. Netrakanti,; T. Niida; S. Nishimura; R. Nouicer; T. Nov\'ak; N. Novitzky; A.S. Nyanin; E.; O'Brien; C.A. Ogilvie; J.D. Orjuela Koop; J.D. Osborn; A. Oskarsson; K.; Ozawa; R. Pak; V. Pantuev; V. Papavassiliou; J.S. Park; S. Park; S.F. Pate,; M. Patel; J.-C. Peng; W. Peng; D.V. Perepelitsa; G.D.N. Perera; D.Yu.; Peressounko; C.E. PerezLara; J. Perry; R. Petti; C. Pinkenburg; R. Pinson,; R.P. Pisani; M.L. Purschke; P.V. Radzevich; J. Rak; 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; 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; T.-A. Shibata; K. Shigaki; M.; Shimomura; P. Shukla; A. Sickles; C.L. Silva; D. Silvermyr; B.K. Singh; C.P.; Singh; V. Singh; M.J. Skoby; M. Slune\v{c}ka; 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; Z. Sun; J.; Sziklai; A. Taketani; K. Tanida; M.J. Tannenbaum; S. Tarafdar; A. Taranenko,; 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; X.R. Wang; Y. Watanabe; Y.S. Watanabe; F. Wei,; A.S. White; C.P. Wong; C.L. Woody; M. Wysocki; B. Xia; C. Xu; Q. Xu; L. Xue,; S. Yalcin; Y.L. Yamaguchi; A. Yanovich; J.H. Yoo; I. Yoon; H. Yu; I.E.; Yushmanov; W.A. Zajc; A. Zelenski; S. Zharko; S. Zhou; L. Zou

arXiv:1804.10024·nucl-ex·August 13, 2019

Multi-particle azimuthal correlations for extracting event-by-event elliptic and triangular flow in Au$+$Au collisions at $\sqrt{s_{_{NN}}}=200$ GeV

A. Adare, C. Aidala, N.N. Ajitanand, Y. Akiba, M. Alfred, N. Apadula,, H. Asano, B. Azmoun, V. Babintsev, A. Bagoly, M. Bai, N.S. Bandara, B., Bannier, K.N. Barish, S. Bathe, A. Bazilevsky, M. Beaumier, S. Beckman, R., Belmont, A. Berdnikov, Y. Berdnikov, D.S. Blau, M. Boer

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TL;DR

This paper measures elliptic and triangular flow in gold-gold collisions at 200 GeV using multiparticle correlations, providing insights into initial state fluctuations and their effects on final particle distributions.

Contribution

It introduces a comprehensive analysis of flow coefficients using multiparticle cumulants and distribution folding, advancing understanding of event-by-event flow fluctuations.

Findings

01

Flow coefficients vary with collision centrality.

02

Event-by-event flow fluctuations are characterized.

03

Initial geometry fluctuations influence final particle distributions.

Abstract

We present measurements of elliptic and triangular azimuthal anisotropy of charged particles detected at forward rapidity $1 < ∣ η ∣ < 3$ in Au $+$ Au collisions at $s_{_{N N}} = 200$ GeV, as a function of centrality. The multiparticle cumulant technique is used to obtain the elliptic flow coefficients $v_{2} {2}$ , $v_{2} {4}$ , $v_{2} {6}$ , and $v_{2} {8}$ , and triangular flow coefficients $v_{3} {2}$ and $v_{3} {4}$ . Using the small-variance limit, we estimate the mean and variance of the event-by-event $v_{2}$ distribution from $v_{2} {2}$ and $v_{2} {4}$ . In a complementary analysis, we also use a folding procedure to study the distributions of $v_{2}$ and $v_{3}$ directly, extracting both the mean and variance. Implications for initial geometrical fluctuations and their translation into the final state momentum distributions are discussed.

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