Elliptic flow from two- and four-particle correlations in Au+Au collisions at √s nn=130 GeV

Carl G. Adler,Zubayer Ahammed,C. Allgower,J. Amonett,Bryon D. Anderson,Michael G. Anderson,G. S. Averichev,Jan T. Balewski,Olga Barannikova, L. S. Barnby,Jérôme Baudot,Selemon Bekele,V. V. Belaga,René Bellwied,Jens Ph Berger,Hans C. Bichsel,Anja E M Billmeier,L. C. Bland,C. O. Blyth,B. E. Bonner,A. Boucham,A. V. Brandin,Alessandro Bravar,Robert V. Cadman,Helen Louise Caines,Manuel Calderón De La Barca Sánchez,A. Cardenas,Jim B. Carroll,Javier Sarmiento Castillo,María J. Castro,Daniel A. Cebra,Petr Chaloupka,Subhasis Chattopadhyay,Yang Chen,S. P. Chernenko,Michael Gerard Cherney,Alexei A. Chikanian,Bernard Choi,William B. Christie,Jean Pierre Michel Coffin,Thomas Michael Cormier,John G. Cramer,Henry J. Crawford,W. S. Deng,A. A. Derevschikov,Lidia A. Didenko,Thomas Dietel,James E. Draper,V. B. Dunin,James C. Dunlop,Volker Eckardt,L. G. Efimov,V. V. Emelianov,J. M. Engelage,G. Eppley,Barbara Erazmus,Patricia Fachini,V. Faine,Kirill V. Filimonov,L. Evan Finch,Yu V. Fisyak,D. Flierl,K. J. Foley,Jun Fu,Cari A. Gagliardi,Nikolai D. Gagunashvili,J. Gans,Ludovic Gaudichet,Marie Germain,Frank J M Geurts,V. Ghazikhanian, O. A. Grachov,Vladislav A. Grigoriev,M. Guedon,E. N. Gushin,Timothy J. Hallman,David H. Hardtke,John William Harris,Thomas W. Henry,Steven F. Heppelmann,T. Herston,Boris Hippolyte,Andrew S. Hirsch,E. L. Hjort,Gerald W. Hoffmann,M. Horsley,HuanZhong Huang,Thomas J. Humanic,George J. Igo,Aya Ishihara,Yu I. Ivanshin,Peter M. Jacobs,W. W. Jacobs,Michał A. Janik,Ian J. Johnson,Peter Graham Jones,Eddie G. Judd,Masashi Kaneta,Morton S. Kaplan,Declan Keane,Joanna Kiryluk,Adam Ryszard Kisiel,Jennifer Lynn Klay,Spencer R. Klein,A. V. Klyachko,A. S. Konstantinov,Mikhail L. Kopytine,L. Kotchenda,Alexander Dmitrievich Kovalenko,Martin A. Krämer,P. A. Kravtsov,K. W. Krueger,Christian Kühn,A. I. Kulikov,Gerd J. Kunde,Caroline L. Kunz,R. Kh Kutuev,A. A. Kuznetsov,L. Lakehal-Ayat,Matthew A C Lamont,J. M. Landgraf,Soeren Lange,C. P. Lansdell,Brian Lasiuk,Frank Laue,Alexandre L. Lebedev,Richard I. Lednický,V. M. Leontiev,Michael J S LeVine,Qiang Li,Seymour J. Lindenbaum,Mike Annan Lisa,Fuming Liu,Lianshou Liu,Z. G. Liu,Qingjun Lìu,T. A. Ljubičič,W. J. Llope,Gaspare Locurto,Hui Long,Ronald S. Longacre,M. López Noriega,WILLIAM A. Love,Thomas W. Ludlam, D. Lynn,Jingguo Ma,R. D. Majka,Spyridon Margetis,Christina Markert,Lane W. Martin,Jay N. Marx,Howard S. Matis,Yu A. Matulenko,T. S. McShane,F. Meißner,Yu M. Melnick,A. P. Meschanin,Michael Messer,Michael L. Miller,Zoran Milosevich,N. G. Minaev,Jeffery T. Mitchell,V. A. Moiseenko,Craig Fred Moore,V. B. Morozov,M. M. De Moura,Marcelo Gameiro Munhoz,J. M. Nelson,Pavel Nevski,Vladimir A. Nikitin,L. V. Nogach,B. E. Norman,Sandibek B. Nurushev,Grazyna J. Odyniec,Akio Ogawa,V. A. Okorokov,Markus D. Oldenburg,Doug L. Olson,Guy Paić,Sanjeev U. Pandey,Yu A. Panebratsev,Sergey Yu Panitkin,Alexei I. Pavlinov,Tomasz Jan Pawlak,Victor Perevoztchikov,Wiktor Stanislaw Peryt,V. A. Petrov,Maja Planinić,Jan Marian Pluta,Norbert T. Porile,Jeff R. Porter,Arthur M. Poskanzer,E. V. Potrebenikova,Duncan J. Prindle,Claude Andre Pruneau,Jörn Henning Putschke,Gulshan Rai,G. L. Rakness,Olivier Ravel,Rajarshi L. Ray,S. V. Razin,Dennis M. Reichhold,J. G. Reid,Gaël Renault,Fabrice Retière,A. V. Ridiger,Hans Georg Ritter,James B. Roberts,O. V. Rogachevski,Juan L. Romero,Andrew A. Rose,Christelle Sophie Roy,V. L. Rykov,Iwona M. Sakrejda,Sevil Salur,Jack Sandweiss,Alfred C. Saulys,Igor A. Savin,Jo J. Schambach,Rolf Paul Scharenberg,Norbert Schmitz,Lee S. Schroeder,Andreas Schüttauf,Kai Oliver Schweda,Janet E. Seger,Dmitryi Mikhailovich Seliverstov,Peter Seyboth,E. I. Shahaliev,K. E. Shestermanov,Stepan S. Shimanskii,V. S. Shvetcov,Goran P. Škoro,Nikolai E. Smirnov,Raimond J M Snellings,Paul Richard Sorensen,James G. Sowinski,Harold M. Spinka,Brijesh Kumar Srivastava,Edward J. Stephenson,Reinhard Stock,A. V. Stolpovsky,Mikhail Nikolaevich Strikhanov,Blair C. Stringfellow,Christof Struck,Alexandre Alarcon P Suaide,E. R. Sugarbaker,Christophe Pierre Suire,Michal Šumbera,Bernd Surrow,Timothy J M Symons,Alejandro Szanto De Toledo,Piotr Szarwas,An Tai,Jun Takahashi,Aihong Tang,J. H. Thomas,Mark A. Thompson,V. O. Tikhomirov,Mikhail V. Tokarev,Marguerite Belt Tonjes,Thomas A. Trainor,S. Trentalange,Robert E. Tribble,V. A. Trofimov,O. D. Tsai,Th S. Ullrich,David G. Underwood,Gene Van Buren,A. M. Van der Molen,I. M. Vasilevski,Alexander N. Vasiliev,Steven E. Vigdor,Sergei A. Voloshin,Fuqiang Wang,Herb J. Ward,J. W. Watson,Russell P. Wells,Gary Vander Westfall,C. WhittenJr,Howard H. Wieman,R. M. Willson,Scott W. Wissink,Richard Witt,Joseph P. Wood,Nu Xu,Zhangbu Xu,A. E. Yakutin,Eugene Yamamoto,Juhua Yang,Pablo P. Yepes,Vladimir I. Yurevich,Yuri Vaslovich Zanevski,Imrich Zborovský,Haibin Zhang,W. M. Zhang,R. Zoulkarneev,A. N. Zubarev

Physical Review C - Nuclear Physics（2002）

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摘要

Elliptic flow holds much promise for studying the early-time thermalization attained in ultrarelativistic nuclear collisions. Flow measurements also provide a means of distinguishing between hydrodynamic models and calculations which approach the low density (dilute gas) limit. Among the effects that can complicate the interpretation of elliptic flow measurements are azimuthal correlations that are unrelated to the reaction plane (nonflow correlations). Using data for Au + Au collisions at √s NN= 130 GeV from the STAR time projection chamber, it is found that four-particle correlation analyses can reliably separate flow and nonflow correlation signals. The latter account for on average about 15% of the observed second-harmonic azimuthal correlation, with the largest relative contribution for the most peripheral and the most central collisions. The results are also corrected for the effect of flow variations within centrality bins. This effect is negligible for all but the most central bin, where the correction to the elliptic flow is about a factor of 2. A simple new method for two-particle flow analysis based on scalar products is described. An analysis based on the distribution of the magnitude of the flow vector is also described.

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