Isolation of Flow and Nonflow Correlations by Two- and Four-Particle   Cumulant Measurements of Azimuthal Harmonics in $\sqrt{s_{_{\rm NN}}} =$ 200   GeV Au+Au Collisions

N. M. Abdelwahab; L. Adamczyk; J. K. Adkins; G. Agakishiev; M. M.; Aggarwal; Z. Ahammed; I. Alekseev; J. Alford; C. D. Anson; A. Aparin; D.; Arkhipkin; E. C. Aschenauer; G. S. Averichev; A. Banerjee; D. R. Beavis; R.; Bellwied; A. Bhasin; A. K. Bhati; P. Bhattarai; J. Bielcik; J. Bielcikova; L.; C. Bland; I. G. Bordyuzhin; W. Borowski; J. Bouchet; A. V. Brandin; S. G.; Brovko; S. B\"ultmann; I. Bunzarov; T. P. Burton; J. Butterworth; H. Caines,; M. Calder\'ondela Barca S\'anchez; J. M. Campbell; D. Cebra; R. Cendejas; M.; C. Cervantes; P. Chaloupka; Z. Chang; S. Chattopadhyay; H. F. Chen; J. H.; Chen; L. Chen; J. Cheng; M. Cherney; A. Chikanian; W. Christie; J.; Chwastowski; M. J. M. Codrington; G. Contin; J. G. Cramer; H. J. Crawford; X.; Cui; S. Das; A. Davila Leyva; L. C. De Silva; R. R. Debbe; T. G. Dedovich; J.; Deng; A. A. Derevschikov; R. Derradi de Souza; B. di Ruzza; L. Didenko; C.; Dilks; F. Ding; P. Djawotho; X. Dong; J. L. Drachenberg; J. E. Draper; C. M.; Du; L. E. Dunkelberger; J. C. Dunlop; L. G. Efimov; J. Engelage; K. S. Engle,; G. Eppley; L. Eun; O. Evdokimov; O. Eyser; R. Fatemi; S. Fazio; J. Fedorisin,; P. Filip; Y. Fisyak; C. E. Flores; C. A. Gagliardi; D. R. Gangadharan; D.; Garand; F. Geurts; A. Gibson; M. Girard; S. Gliske; L. Greiner; D. Grosnick,; D. S. Gunarathne; Y. Guo; A. Gupta; S. Gupta; W. Guryn; B. Haag; A. Hamed,; L-X. Han; R. Haque; J. W. Harris; S. Heppelmann; A. Hirsch; G. W. Hoffmann,; D. J. Hofman; S. Horvat; B. Huang; H. Z. Huang; X. Huang; P. Huck; T. J.; Humanic; G. Igo; W. W. Jacobs; H. Jang; E. G. Judd; S. Kabana; D. Kalinkin,; K. Kang; K. Kauder; H. W. Ke; D. Keane; A. Kechechyan; A. Kesich; Z. H. Khan,; D. P. Kikola; I. Kisel; A. Kisiel; D. D. Koetke; T. Kollegger; J. Konzer; I.; Koralt; L. K. Kosarzewski; L. Kotchenda; A. F. Kraishan; P. Kravtsov; K.; Krueger; I. Kulakov; L. Kumar; R. A. Kycia; M. A. C. Lamont; J. M. Landgraf,; K. D. Landry; J. Lauret; A. Lebedev; R. Lednicky; J. H. Lee; C. Li; W. Li; X.; Li; X. Li; Y. Li; Z. M. Li; M. A. Lisa; F. Liu; T. Ljubicic; W. J. Llope; M.; Lomnitz; R. S. Longacre; X. Luo; G. L. Ma; Y. G. Ma; D. P. Mahapatra; R.; Majka; S. Margetis; C. Markert; H. Masui; H. S. Matis; D. McDonald; T. S.; McShane; N. G. Minaev; S. Mioduszewski; B. Mohanty; M. M. Mondal; D. A.; Morozov; M. K. Mustafa; B. K. Nandi; Md. Nasim; T. K. Nayak; J. M. Nelson; G.; Nigmatkulov; L. V. Nogach; S. Y. Noh; J. Novak; S. B. Nurushev; G. Odyniec,; A. Ogawa; K. Oh; A. Ohlson; V. Okorokov; E. W. Oldag; D. L. Olvitt Jr.; B. S.; Page; Y. X. Pan; Y. Pandit; Y. Panebratsev; T. Pawlak; B. Pawlik; H. Pei; C.; Perkins; P. Pile; M. Planinic; J. Pluta; N. Poljak; K. Poniatowska; J.; Porter; A. M. Poskanzer; N. K. Pruthi; M. Przybycien; J. Putschke; H. Qiu; A.; Quintero; S. Ramachandran; R. Raniwala; S. Raniwala; R. L. Ray; C. K. Riley,; H. G. Ritter; J. B. Roberts; O. V. Rogachevskiy; J. L. Romero; J. F. Ross; A.; Roy; L. Ruan; J. Rusnak; O. Rusnakova; N. R. Sahoo; P. K. Sahu; I. Sakrejda,; S. Salur; A. Sandacz; J. Sandweiss; E. Sangaline; A. Sarkar; J. Schambach; R.; P. Scharenberg; A. M. Schmah; W. B. Schmidke; N. Schmitz; J. Seger; P.; Seyboth; N. Shah; E. Shahaliev; P. V. Shanmuganathan; M. Shao; B. Sharma; W.; Q. Shen; S. S. Shi; Q. Y. Shou; E. P. Sichtermann; M. Simko; M. J. Skoby; D.; Smirnov; N. Smirnov; D. Solanki; P. Sorensen; H. M. Spinka; B. Srivastava; T.; D. S. Stanislaus; J. R. Stevens; R. Stock; M. Strikhanov; B. Stringfellow; M.; Sumbera; X. Sun; X. M. Sun; Y. Sun; Z. Sun; B. Surrow; D. N. Svirida; T. J.; M. Symons; M. A. Szelezniak; J. Takahashi; A. H. Tang; Z. Tang; T. Tarnowsky,; J. H. Thomas; A. R. Timmins; D. Tlusty; M. Tokarev; S. Trentalange; R. E.; Tribble; P. Tribedy; B. A. Trzeciak; O. D. Tsai; J. Turnau; T. Ullrich; D. G.; Underwood; G. Van Buren; G. van Nieuwenhuizen; M. Vandenbroucke; J. A.; Vanfossen; Jr.; R. Varma; G. M. S. Vasconcelos; A. N. Vasiliev; R. Vertesi,; F. Videb{\ae}k; Y. P. Viyogi; S. Vokal; A. Vossen; M. Wada; F. Wang; G. Wang,; H. Wang; J. S. Wang; X. L. Wang; Y. Wang; Y. Wang; G. Webb; J. C. Webb; G. D.; Westfall; H. Wieman; S. W. Wissink; Y. F. Wu; Z. Xiao; W. Xie; K. Xin; H. Xu,; J. Xu; N. Xu; Q. H. Xu; Y. Xu; Z. Xu; W. Yan; C. Yang; Y. Yang; Y. Yang; Z.; Ye; P. Yepes; L. Yi; K. Yip; I-K. Yoo; N. Yu; H. Zbroszczyk; W. Zha; J. B.; Zhang; J. L. Zhang; S. Zhang; X. P. Zhang; Y. Zhang; Z. P. Zhang; F. Zhao; J.; Zhao; C. Zhong; X. Zhu; Y. H. Zhu; Y. Zoulkarneeva; M. Zyzak (STAR; Collaboration)

arXiv:1409.2043·nucl-ex·October 3, 2017

Isolation of Flow and Nonflow Correlations by Two- and Four-Particle Cumulant Measurements of Azimuthal Harmonics in $\sqrt{s_{_{\rm NN}}} =$ 200 GeV Au+Au Collisions

N. M. Abdelwahab, L. Adamczyk, J. K. Adkins, G. Agakishiev, M. M., Aggarwal, Z. Ahammed, I. Alekseev, J. Alford, C. D. Anson, A. Aparin, D., Arkhipkin, E. C. Aschenauer, G. S. Averichev, A. Banerjee, D. R. Beavis, R., Bellwied, A. Bhasin, A. K. Bhati, P. Bhattarai, J. Bielcik

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TL;DR

This paper uses a data-driven approach with two- and four-particle cumulants to separate flow-related and nonflow correlations in 200 GeV Au+Au collisions, revealing flow fluctuations and nonflow contributions.

Contribution

It introduces a method to distinguish flow and nonflow correlations based on pseudorapidity dependence in azimuthal cumulant measurements.

Findings

01

Flow fluctuations are approximately 34%.

02

Flow-related correlations are pseudorapidity independent.

03

Nonflow correlations account for about 5% of the measured flow.

Abstract

A data-driven method was applied to measurements of Au+Au collisions at $s_{_{NN}} =$ 200 GeV made with the STAR detector at RHIC to isolate pseudorapidity distance $Δ η$ -dependent and $Δ η$ -independent correlations by using two- and four-particle azimuthal cumulant measurements. We identified a component of the correlation that is $Δ η$ -independent, which is likely dominated by anisotropic flow and flow fluctuations. It was also found to be independent of $η$ within the measured range of pseudorapidity $∣ η ∣ < 1$ . The relative flow fluctuation was found to be $34% \pm 2% (s t a t .) \pm 3% (sy s .)$ for particles of transverse momentum $p_{T}$ less than $2$ GeV/ $c$ . The $Δ η$ -dependent part may be attributed to nonflow correlations, and is found to be $5% \pm 2% (sy s .)$ relative to the flow of the measured second harmonic cumulant at…

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