학술논문

Beam energy dependence of the linear and mode-coupled flow harmonics in Au+Au collisions

Document Type

article

Author

B.E. Aboona; J. Adam; J.R. Adams; G. Agakishiev; I. Aggarwal; M.M. Aggarwal; Z. Ahammed; A. Aitbaev; I. Alekseev; D.M. Anderson; A. Aparin; J. Atchison; G.S. Averichev; V. Bairathi; W. Baker; J.G. Ball Cap; K. Barish; P. Bhagat; A. Bhasin; S. Bhatta; I.G. Bordyuzhin; J.D. Brandenburg; A.V. Brandin; X.Z. Cai; H. Caines; M. Calderón de la Barca Sánchez; D. Cebra; J. Ceska; I. Chakaberia; B.K. Chan; Z. Chang; D. Chen; J. Chen; J.H. Chen; Z. Chen; J. Cheng; Y. Cheng; S. Choudhury; W. Christie; X. Chu; H.J. Crawford; M. Csanád; G. Dale-Gau; A. Das; M. Daugherity; T.G. Dedovich; I.M. Deppner; A.A. Derevschikov; A. Dhamija; L. Di Carlo; L. Didenko; P. Dixit; X. Dong; J.L. Drachenberg; E. Duckworth; J.C. Dunlop; J. Engelage; G. Eppley; S. Esumi; O. Evdokimov; A. Ewigleben; O. Eyser; R. Fatemi; S. Fazio; C.J. Feng; Y. Feng; E. Finch; Y. Fisyak; F.A. Flor; C. Fu; F. Geurts; N. Ghimire; A. Gibson; K. Gopal; X. Gou; D. Grosnick; A. Gupta; A. Hamed; Y. Han; M.D. Harasty; J.W. Harris; H. Harrison; W. He; X.H. He; Y. He; C. Hu; Q. Hu; Y. Hu; H. Huang; H.Z. Huang; S.L. Huang; T. Huang; X. Huang; Y. Huang; T.J. Humanic; D. Isenhower; M. Isshiki; W.W. Jacobs; A. Jalotra; C. Jena; Y. Ji; J. Jia; C. Jin; X. Ju; E.G. Judd; S. Kabana; M.L. Kabir; D. Kalinkin; K. Kang; D. Kapukchyan; K. Kauder; H.W. Ke; D. Keane; A. Kechechyan; M. Kelsey; B. Kimelman; D. Kincses; A. Kiselev; A.G. Knospe; H.S. Ko; L. Kochenda; A.A. Korobitsin; P. Kravtsov; L. Kumar; S. Kumar; R. Kunnawalkam Elayavalli; R. Lacey; J.M. Landgraf; A. Lebedev; R. Lednicky; J.H. Lee; Y.H. Leung; N. Lewis; C. Li; W. Li; X. Li; Y. Li; Z. Li; X. Liang; Y. Liang; T. Lin; C. Liu; F. Liu; H. Liu; L. Liu; T. Liu; X. Liu; Y. Liu; Z. Liu; T. Ljubicic; W.J. Llope; O. Lomicky; R.S. Longacre; E. Loyd; T. Lu; N.S. Lukow; X.F. Luo; V.B. Luong; L. Ma; R. Ma; Y.G. Ma; N. Magdy; D. Mallick; S. Margetis; H.S. Matis; J.A. Mazer; G. McNamara; K. Mi; N.G. Minaev; B. Mohanty; I. Mooney; D.A. Morozov; A. Mudrokh; A. Mukherjee; M.I. Nagy; A.S. Nain; J.D. Nam; Md. Nasim; D. Neff; J.M. Nelson; D.B. Nemes; M. Nie; G. Nigmatkulov; T. Niida; R. Nishitani; L.V. Nogach; T. Nonaka; A.S. Nunes; G. Odyniec; A. Ogawa; S. Oh; V.A. Okorokov; K. Okubo; B.S. Page; R. Pak; J. Pan; A. Pandav; A.K. Pandey; Y. Panebratsev; T. Pani; P. Parfenov; A. Paul; C. Perkins; B.R. Pokhrel; M. Posik; T. Protzman; N.K. Pruthi; J. Putschke; Z. Qin; H. Qiu; A. Quintero; C. Racz; S.K. Radhakrishnan; N. Raha; R.L. Ray; H.G. Ritter; C.W. Robertson; O.V. Rogachevsky; M.A. Rosales Aguilar; D. Roy; L. Ruan; A.K. Sahoo; N.R. Sahoo; H. Sako; S. Salur; E. Samigullin; S. Sato; W.B. Schmidke; N. Schmitz; J. Seger; R. Seto; P. Seyboth; N. Shah; E. Shahaliev; P.V. Shanmuganathan; M. Shao; T. Shao; M. Sharma; N. Sharma; R. Sharma; S.R. Sharma; A.I. Sheikh; D.Y. Shen; K. Shen; S.S. Shi; Y. Shi; Q.Y. Shou; F. Si; J. Singh; S. Singha; P. Sinha; M.J. Skoby; Y. Söhngen; Y. Song; B. Srivastava; T.D.S. Stanislaus; D.J. Stewart; M. Strikhanov; B. Stringfellow; Y. Su; C. Sun; X. Sun; Y. Sun; B. Surrow; D.N. Svirida; Z.W. Sweger; A. Tamis; A.H. Tang; Z. Tang; A. Taranenko; T. Tarnowsky; J.H. Thomas; D. Tlusty; T. Todoroki; M.V. Tokarev; C.A. Tomkiel; S. Trentalange; R.E. Tribble; P. Tribedy; O.D. Tsai; C.Y. Tsang; Z. Tu; T. Ullrich; D.G. Underwood; I. Upsal; G. Van Buren; A.N. Vasiliev; V. Verkest; F. Videbæk; S. Vokal; S.A. Voloshin; F. Wang; G. Wang; J.S. Wang; X. Wang; Y. Wang; Z. Wang; J.C. Webb; P.C. Weidenkaff; G.D. Westfall; H. Wieman; G. Wilks; S.W. Wissink; J. Wu; X. Wu; Y. Wu; B. Xi; Z.G. Xiao; W. Xie; H. Xu; N. Xu; Q.H. Xu; Y. Xu; Z. Xu; G. Yan; Z. Yan; C. Yang; Q. Yang; S. Yang; Y. Yang; Z. Ye; L. Yi; K. Yip; Y. Yu; W. Zha; C. Zhang; D. Zhang; J. Zhang; S. Zhang; X. Zhang; Y. Zhang; Z.J. Zhang; Z. Zhang; F. Zhao; J. Zhao; M. Zhao; C. Zhou; J. Zhou; S. Zhou; Y. Zhou; X. Zhu; M. Zurek; M. Zyzak

Source

Physics Letters B, Vol 839, Iss , Pp 137755- (2023)

Subject

Collectivity
Correlation
Shear viscosity
Physics
QC1-999

Language

English

ISSN

0370-2693

Abstract

The linear and mode-coupled contributions to higher-order anisotropic flow are presented for Au+Au collisions at sNN = 27, 39, 54.4, and 200 GeV and compared to similar measurements for Pb+Pb collisions at the Large Hadron Collider (LHC). The coefficients and the flow harmonics' correlations, which characterize the linear and mode-coupled response to the lower-order anisotropies, indicate a beam energy dependence consistent with an influence from the specific shear viscosity (η/s). In contrast, the dimensionless coefficients, mode-coupled response coefficients, and normalized symmetric cumulants are approximately beam-energy independent, consistent with a significant role from initial-state effects. These measurements could provide unique supplemental constraints to (i) distinguish between different initial-state models and (ii) delineate the temperature (T) and baryon chemical potential (μB) dependence of the specific shear viscosity ηs(T,μB).

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