Centrality dependence of L\'evy-stable two-pion Bose-Einstein   correlations in $\sqrt{s_{_{NN}}}=200$ GeV Au$+$Au collisions

PHENIX Collaboration: N.J. Abdulameer; U. Acharya; A. Adare; C.; Aidala; N.N. Ajitanand; Y. Akiba; R. Akimoto; H. Al-Ta'ani; J. Alexander; A.; Angerami; K. Aoki; N. Apadula; Y. Aramaki; H. Asano; E.C. Aschenauer; E.T.; Atomssa; T.C. Awes; B. Azmoun; V. Babintsev; M. Bai; B. Bannier; K.N. Barish,; B. Bassalleck; S. Bathe; V. Baublis; S. Baumgart; A. Bazilevsky; R. Belmont,; R. Belmont; A. Berdnikov; Y. Berdnikov; L. Bichon; B. Blankenship; D.S. Blau,; J.S. Bok; V. Borisov; K. Boyle; M.L. Brooks; H. Buesching; V. Bumazhnov; S.; Butsyk; S. Campbell; P. Castera; C.-H. Chen; D. Chen; M. Chiu; C.Y. Chi; I.J.; Choi; J.B. Choi; S. Choi; R.K. Choudhury; P. Christiansen; T. Chujo; O.; Chvala; V. Cianciolo; Z. Citron; B.A. Cole; M. Connors; M. Connors; R.; Corliss; M. Csan\'ad; T. Cs\"org\H{o}; L. D'Orazio; S. Dairaku; A. Datta,; M.S. Daugherity; G. David; A. Denisov; A. Deshpande; E.J. Desmond; K.V.; Dharmawardane; O. Dietzsch; L. Ding; A. Dion; M. Donadelli; V. Doomra; O.; Drapier; A. Drees; K.A. Drees; J.M. Durham; A. Durum; S. Edwards; Y.V.; Efremenko; T. Engelmore; A. Enokizono; R. Esha; K.O. Eyser; B. Fadem; D.E.; Fields; M. Finger; Jr.; M. Finger; D. Firak; D. Fitzgerald; F. Fleuret; S.L.; Fokin; J.E. Frantz; A. Franz; A.D. Frawley; Y. Fukao; T. Fusayasu; K. Gainey,; C. Gal; A. Garishvili; I. Garishvili; A. Glenn; X. Gong; M. Gonin; Y. Goto,; R. Granier de Cassagnac; N. Grau; S.V. Greene; M. Grosse Perdekamp; T. Gunji,; L. Guo; T. Guo; H.-{\AA}. Gustafsson; T. Hachiya; J.S. Haggerty; K.I. Hahn,; H. Hamagaki; J. Hanks; K. Hashimoto; E. Haslum; R. Hayano; T.K. Hemmick; T.; Hester; X. He; J.C. Hill; A. Hodges; R.S. Hollis; K. Homma; B. Hong; T.; Horaguchi; Y. Hori; T. Ichihara; H. Iinuma; Y. Ikeda; J. Imrek; M. Inaba; A.; Iordanova; D. Isenhower; M. Issah; D. Ivanishchev; B.V. Jacak; M. Javani; X.; Jiang; Z. Ji; B.M. Johnson; K.S. Joo; D. Jouan; D.S. Jumper; J. Kamin; S.; Kaneti; B.H. Kang; J.H. Kang; J.S. Kang; J. Kapustinsky; K. Karatsu; M.; Kasai; G. Kasza; D. Kawall; A.V. Kazantsev; T. Kempel; A. Khanzadeev; K.M.; Kijima; B.I. Kim; C. Kim; D.J. Kim; E.-J. Kim; H.J. Kim; K.-B. Kim; Y.-J.; Kim; Y.K. Kim; E. Kinney; \'A. Kiss; E. Kistenev; J. Klatsky; D. Kleinjan; P.; Kline; Y. Komatsu; B. Komkov; J. Koster; D. Kotchetkov; D. Kotov; L. Kovacs,; F. Krizek; A. Kr\'al; G.J. Kunde; B. Kurgyis; K. Kurita; M. Kurosawa; Y.; Kwon; G.S. Kyle; Y.S. Lai; J.G. Lajoie; A. Lebedev; B. Lee; D.M. Lee; J. Lee,; K.B. Lee; K.S. Lee; S.H. Lee; S.R. Lee; M.J. Leitch; M.A.L. Leite; M.; Leitgab; B. Lewis; S.H. Lim; L.A. Linden Levy; M.X. Liu; S. L\"ok\"os; D.A.; Loomis; B. Love; C.F. Maguire; Y.I. Makdisi; M. Makek; A. Manion; V.I. Manko,; E. Mannel; S. Masumoto; M. McCumber; P.L. McGaughey; D. McGlinchey; C.; McKinney; M. Mendoza; B. Meredith; Y. Miake; T. Mibe; A.C. Mignerey; A.; Milov; D.K. Mishra; J.T. Mitchell; M. Mitrankova; Iu. Mitrankov; Y. Miyachi,; S. Miyasaka; A.K. Mohanty; S. Mohapatra; H.J. Moon; D.P. Morrison; D.P.; Morrison; S. Motschwiller; T.V. Moukhanova; B. Mulilo; T. Murakami; J.; Murata; A. Mwai; T. Nagae; S. Nagamiya; J.L. Nagle; J.L. Nagle; M.I. Nagy; I.; Nakagawa; Y. Nakamiya; K.R. Nakamura; T. Nakamura; K. Nakano; C. Nattrass; A.; Nederlof; M. Nihashi; R. Nouicer; T. Nov\'ak; N. Novitzky; G. Nukazuka; A.S.; Nyanin; E. O'Brien; C.A. Ogilvie; K. Okada; M. Orosz; A. Oskarsson; M.; Ouchida; K. Ozawa; R. Pak; V. Pantuev; V. Papavassiliou; B.H. Park; I.H.; Park; J.S. Park; S. Park; S.K. Park; L. Patel; S.F. Pate; H. Pei; J.-C. Peng,; H. Pereira; D.Yu. Peressounko; R. Petti; C. Pinkenburg; R.P. Pisani; M.; Potekhin; M. Proissl; M.L. Purschke; H. Qu; J. Rak; I. Ravinovich; K.F. Read,; D. Reynolds; V. Riabov; Y. Riabov; E. Richardson; D. Richford; D. Roach; G.; Roche; S.D. Rolnick; M. Rosati; B. Sahlmueller; N. Saito; T. Sakaguchi; V.; Samsonov; M. Sano; M. Sarsour; S. Sawada; K. Sedgwick; R. Seidl; A. Sen; R.; Seto; D. Sharma; I. Shein; T.-A. Shibata; K. Shigaki; M. Shimomura; K. Shoji,; P. Shukla; A. Sickles; C.L. Silva; D. Silvermyr; K.S. Sim; B.K. Singh; C.P.; Singh; C.P. Singh; V. Singh; M. Slune\v{c}ka; K.L. Smith; R.A. Soltz; W.E.; Sondheim; S.P. Sorensen; I.V. Sourikova; P.W. Stankus; E. Stenlund; M.; Stepanov; A. Ster; S.P. Stoll; T. Sugitate; A. Sukhanov; J. Sun; Z. Sun; J.; Sziklai; E.M. Takagui; A. Takahara; A. Taketani; Y. Tanaka; S. Taneja; K.; Tanida; M.J. Tannenbaum; S. Tarafdar; A. Taranenko; E. Tennant; H. Themann,; T. Todoroki; L. Tom\'a\v{s}ek; M. Tom\'a\v{s}ek; H. Torii; R.S. Towell; I.; Tserruya; Y. Tsuchimoto; T. Tsuji; B. Ujvari; C. Vale; H.W. van Hecke; M.; Vargyas; E. Vazquez-Zambrano; A. Veicht; J. Velkovska; M. Virius; A. Vossen,; V. Vrba; E. Vznuzdaev; R. V\'ertesi; X.R. Wang; D. Watanabe; K. Watanabe; Y.; Watanabe; Y.S. Watanabe; F. Wei; R. Wei; S.N. White; D. Winter; S. Wolin,; C.L. Woody; M. Wysocki; B. Xia; Y.L. Yamaguchi; R. Yang; A. Yanovich; J.; Ying; S. Yokkaichi; I. Younus; Z. You; I.E. Yushmanov; W.A. Zajc; A. Zelenski

arXiv:2407.08586·nucl-ex·April 1, 2025

Centrality dependence of L\'evy-stable two-pion Bose-Einstein correlations in $\sqrt{s_{_{NN}}}=200$ GeV Au$+$Au collisions

PHENIX Collaboration: N.J. Abdulameer, U. Acharya, A. Adare, C., Aidala, N.N. Ajitanand, Y. Akiba, R. Akimoto, H. Al-Ta'ani, J. Alexander, A., Angerami, K. Aoki, N. Apadula, Y. Aramaki, H. Asano, E.C. Aschenauer, E.T., Atomssa, T.C. Awes, B. Azmoun, V. Babintsev, M. Bai

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TL;DR

This study investigates how two-pion Bose-Einstein correlations depend on collision centrality in high-energy gold-gold collisions, revealing non-Gaussian source distributions and implications for in-medium meson mass modifications.

Contribution

It provides the first detailed analysis of Lévystable source parameters in heavy-ion collisions, showing their centrality dependence and deviations from Gaussian models, with implications for chiral symmetry restoration.

Findings

01

Lévystable source distributions fit the data well.

02

The Lévy exponent α varies with centrality and differs from Gaussian or Cauchy values.

03

In-medium η' meson mass reduction is suggested in non-peripheral collisions.

Abstract

The PHENIX experiment measured the centrality dependence of two-pion Bose-Einstein correlation functions in $s_{_{N N}} = 200$ ~GeV Au $+$ Au collisions at the Relativistic Heavy Ion Collider at Brookhaven National Laboratory. The data are well represented by L\'evy-stable source distributions. The extracted source parameters are the correlation-strength parameter $λ$ , the L\'evy index of stability $α$ , and the L\'evy-scale parameter $R$ as a function of transverse mass $m_{T}$ and centrality. The $λ (m_{T})$ parameter is constant at larger values of $m_{T}$ , but decreases as $m_{T}$ decreases. The L\'evy scale parameter $R (m_{T})$ decreases with $m_{T}$ and exhibits proportionality to the length scale of the nuclear overlap region. The L\'evy exponent $α (m_{T})$ is independent of $m_{T}$ within uncertainties in each investigated centrality bin, but shows a clear centrality…

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Taxonomy

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