학술논문

Constraining the initial conditions and temperature dependent viscosity with three-particle correlations in Au+Au collisions
Document Type
article
Author
L. AdamczykJ.K. AdkinsG. AgakishievM.M. AggarwalZ. AhammedN.N. AjitanandI. AlekseevD.M. AndersonR. AoyamaA. AparinD. ArkhipkinE.C. AschenauerM.U. AshrafA. AttriG.S. AverichevX. BaiV. BairathiA. BeheraR. BellwiedA. BhasinA.K. BhatiP. BhattaraiJ. BielcikJ. BielcikovaL.C. BlandI.G. BordyuzhinJ. BouchetJ.D. BrandenburgA.V. BrandinD. BrownI. BunzarovJ. ButterworthH. CainesM. Calderón de la Barca SánchezJ.M. CampbellD. CebraI. ChakaberiaP. ChaloupkaZ. ChangN. Chankova-BunzarovaA. ChatterjeeS. ChattopadhyayX. ChenJ.H. ChenJ. ChengM. CherneyW. ChristieG. ContinH.J. CrawfordS. DasL.C. De SilvaR.R. DebbeT.G. DedovichJ. DengA.A. DerevschikovL. DidenkoC. DilksX. DongJ.L. DrachenbergJ.E. DraperL.E. DunkelbergerJ.C. DunlopL.G. EfimovN. ElseyJ. EngelageG. EppleyR. EshaS. EsumiO. EvdokimovJ. EwiglebenO. EyserR. FatemiS. FazioP. FedericP. FedericovaJ. FedorisinZ. FengP. FilipE. FinchY. FisyakC.E. FloresL. FulekC.A. GagliardiD. GarandF. GeurtsA. GibsonM. GirardD. GrosnickD.S. GunarathneY. GuoA. GuptaS. GuptaW. GurynA.I. HamadA. HamedA. HarlenderovaJ.W. HarrisL. HeS. HeppelmannA. HirschG.W. HoffmannS. HorvatT. HuangB. HuangX. HuangH.Z. HuangT.J. HumanicP. HuoG. IgoW.W. JacobsA. JentschJ. JiaK. JiangS. JowzaeeE.G. JuddS. KabanaD. KalinkinK. KangK. KauderH.W. KeD. KeaneA. KechechyanZ. KhanD.P. KikołaI. KiselA. KisielL. KochendaM. KocmanekT. KolleggerL.K. KosarzewskiA.F. KraishanP. KravtsovK. KruegerN. KulathungaL. KumarJ. KvapilJ.H. KwasizurR. LaceyJ.M. LandgrafK.D. LandryJ. LauretA. LebedevR. LednickyJ.H. LeeX. LiC. LiW. LiY. LiJ. LidrychT. LinM.A. LisaH. LiuP. LiuY. LiuF. LiuT. LjubicicW.J. LlopeM. LomnitzR.S. LongacreS. LuoX. LuoG.L. MaL. MaY.G. MaR. MaN. MagdyR. MajkaD. MallickS. MargetisC. MarkertH.S. MatisK. MeehanJ.C. MeiZ.W. MillerN.G. MinaevS. MioduszewskiD. MishraS. MizunoB. MohantyM.M. MondalD.A. MorozovM.K. MustafaMd. NasimT.K. NayakJ.M. NelsonM. NieG. NigmatkulovT. NiidaL.V. NogachT. NonakaS.B. NurushevG. OdyniecA. OgawaK. OhV.A. OkorokovD. Olvitt, Jr.B.S. PageR. PakY. PanditY. PanebratsevB. PawlikH. PeiC. PerkinsP. PileJ. PlutaK. PoniatowskaJ. PorterM. PosikA.M. PoskanzerN.K. PruthiM. PrzybycienJ. PutschkeH. QiuA. QuinteroS. RamachandranR.L. RayR. ReedM.J. RehbeinH.G. RitterJ.B. RobertsO.V. RogachevskiyJ.L. RomeroJ.D. RothL. RuanJ. RusnakO. RusnakovaN.R. SahooP.K. SahuS. SalurJ. SandweissM. SaurJ. SchambachA.M. SchmahW.B. SchmidkeN. SchmitzB.R. SchweidJ. SegerM. SergeevaP. SeybothN. ShahE. ShahalievP.V. ShanmuganathanM. ShaoA. SharmaM.K. SharmaW.Q. ShenZ. ShiS.S. ShiQ.Y. ShouE.P. SichtermannR. SikoraM. SimkoS. SinghaM.J. SkobyN. SmirnovD. SmirnovW. SolystL. SongP. SorensenH.M. SpinkaB. SrivastavaT.D.S. StanislausM. StrikhanovB. StringfellowT. SugiuraM. SumberaB. SummaY. SunX.M. SunX. SunB. SurrowD.N. SviridaA.H. TangZ. TangA. TaranenkoT. TarnowskyA. TawfikJ. ThäderJ.H. ThomasA.R. TimminsD. TlustyT. TodorokiM. TokarevS. TrentalangeR.E. TribbleP. TribedyS.K. TripathyB.A. TrzeciakO.D. TsaiT. UllrichD.G. UnderwoodI. UpsalG. Van BurenG. van NieuwenhuizenA.N. VasilievF. VidebækS. VokalS.A. VoloshinA. VossenG. WangY. WangF. WangJ.C. WebbG. WebbL. WenG.D. WestfallH. WiemanS.W. WissinkR. WittY. WuZ.G. XiaoW. XieG. XieJ. XuN. XuQ.H. XuY.F. XuZ. XuY. YangQ. YangC. YangS. YangZ. YeL. YiK. YipI.-K. YooN. YuH. ZbroszczykW. ZhaZ. ZhangX.P. ZhangJ.B. ZhangS. ZhangJ. ZhangY. ZhangJ. ZhaoC. ZhongL. ZhouC. ZhouX. ZhuZ. ZhuM. Zyzak
Source
Physics Letters B, Vol 790, Iss , Pp 81-88 (2019)
Subject
Physics
QC1-999
Language
English
ISSN
0370-2693
Abstract
We present three-particle mixed-harmonic correlations 〈cos⁡(mϕa+nϕb−(m+n)ϕc)〉 for harmonics m,n=1−3 for charged particles in sNN=200 GeV Au+Au collisions at RHIC. These measurements provide information on the three-dimensional structure of the initial collision zone and are important for constraining models of a subsequent low-viscosity quark–gluon plasma expansion phase. We investigate correlations between the first, second and third harmonics predicted as a consequence of fluctuations in the initial state. The dependence of the correlations on the pseudorapidity separation between particles show hints of a breaking of longitudinal invariance. We compare our results to a number of state-of-the art hydrodynamic calculations with different initial states and temperature dependent viscosities. These measurements provide important steps towards constraining the temperature dependent viscosity and longitudinal structure of the initial state at RHIC.