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Azimuthal Anisotropy in U plus U and Au plus Au Collisions at RHIC

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Title	Azimuthal Anisotropy in U plus U and Au plus Au Collisions at RHIC
Creator	ADAMCZYK, L ADKINS, JK AGAKISHIEV, G AGGARWAL, MM AHAMMED, Z ALEKSEEV, I ALFORD, J APARIN, A ARKHIPKIN, D ASCHENAUER, EC AVERICHEV, GS BANERJEE, A BELLWIED, R BHASIN, A BHATI, AK BHATTARAI, P BIELCIK, J BIELCIKOVA, J BLAND, LC BORDYUZHIN, IG BOUCHET, J BRANDIN, AV BUNZAROV, I BURTON, TP BUTTERWORTH, J CAINES, H SANCHEZ, MCD CAMPBELL, JM CEBRA, D CERVANTES, MC CHAKABERIA, I CHALOUPKA, P CHANG, Z CHATTOPADHYAY, S CHEN, JH CHEN, X CHENG, J CHERNEY, M CHRISTIE, W CONTIN, G CRAWFORD, HJ DAS, S DE SILVA, LC DEBBE, RR DEDOVICH, TG DENG, J DEREVSCHIKOV, AA DI RUZZA, B DIDENKO, L DILKS, C DONG, X DRACHENBERG, JL DRAPER, JE DU, CM DUNKELBERGER, LE DUNLOP, JC EFIMOV, LG ENGELAGE, J EPPLEY, G ESHA, R EVDOKIMOV, O EYSER, O FATEMI, R FAZIO, S FEDERIC, P FEDORISIN, J FENG, Z FILIP, P FISYAK, Y FLORES, CE FULEK, L GAGLIARDI, CA GARAND, D GEURTS, F GIBSON, A GIRARD, M GREINER, L GROSNICK, D GUNARATHNE, DS GUO, Y GUPTA, S GUPTA, A GURYN, W HAMAD, A HAMED, A HAQUE, R HARRIS, JW HE, L HEPPELMANN, S HEPPELMANN, S HIRSCH, A HOFFMANN, GW HOFMAN, DJ HORVAT, S HUANG, HZ HUANG, B HUANG, X HUCK, P HUMANIC, TJ IGO, G JACOBS, WW JANG, H JIANG, K JUDD, EG KABANA, S KALINKIN, D KANG, K KAUDER, K KE, HW KEANE, D KECHECHYAN, A KHAN, ZH KIKOLA, DP KISEL, I KISIEL, A KOETKE, DD KOLLEGGER, T KOSARZEWSKI, LK KOTCHENDA, L KRAISHAN, AF KRAVTSOV, P KRUEGER, K KULAKOV, I KUMAR, L KYCIA, RA LAMONT, MAC LANDGRAF, JM LANDRY, KD LAURET, J LEBEDEV, A LEDNICKY, R LEE, JH LI, W LI, Y LI, C LI, ZM LI, X LI, X LISA, MA LIU, F LJUBICIC, T LLOPE, WJ LOMNITZ, M LONGACRE, RS LUO, X MA, L MA, R MA, YG MA, GL MAGDY, N MAJKA, R MANION, A MARGETIS, S MARKERT, C MASUI, H MATIS, HS MCDONALD, D MEEHAN, K MINAEV, NG MIODUSZEWSKI, S MOHANTY, B MONDAL, MM MOROZOV, DA MUSTAFA, MK NANDI, BK NASIM, M NAYAK, TK NIGMATKULOV, G NOGACH, LV NOH, SY NOVAK, J NURUSHEV, SB ODYNIEC, G OGAWA, A OH, K OKOROKOV, V OLVITT, DL PAGE, BS PAK, R PAN, YX PANDIT, Y PANEBRATSEV, Y PAWLIK, B PEI, H PERKINS, C PETERSON, A PILE, P PLANINIC, M PLUTA, J POLJAK, N PONIATOWSKA, K PORTER, J POSIK, M POSKANZER, AM PRUTHI, NK PUTSCHKE, J QIU, H QUINTERO, A RAMACHANDRAN, S RANIWALA, S RANIWALA, R RAY, RL RITTER, HG ROBERTS, JB ROGACHEVSKIY, OV ROMERO, JL ROY, A RUAN, L RUSNAK, J RUSNAKOVA, O SAHOO, NR SAHU, PK SAKREJDA, I SALUR, S SANDWEISS, J SARKAR, A SCHAMBACH, J SCHARENBERG, RP SCHMAH, AM SCHMIDKE, WB SCHMITZ, N SEGER, J SEYBOTH, P SHAH, N SHAHALIEV, E SHANMUGANATHAN, PV SHAO, M SHARMA, B SHARMA, MK SHEN, WQ SHI, SS SHOU, QY SICHTERMANN, EP SIKORA, R SIMKO, M SKOBY, MJ SMIRNOV, D SMIRNOV, N SONG, L SORENSEN, P SPINKA, HM SRIVASTAVA, B STANISLAUS, TDS STEPANOV, M STOCK, R STRIKHANOV, M STRINGFELLOW, B SUMBERA, M SUMMA, BJ SUN, X SUN, XM SUN, Z SUN, Y SURROW, B SVIRIDA, DN SZELEZNIAK, MA TANG, Z TANG, AH TARNOWSKY, T TAWFIK, AN THOMAS, JH TIMMINS, AR TLUSTY, D TOKAREV, M TRENTALANGE, S TRIBBLE, RE TRIBEDY, P TRIPATHY, SK TRZECIAK, BA TSAI, OD ULLRICH, T UNDERWOOD, DG UPSAL, I VAN BUREN, G VAN NIEUWENHUIZEN, G VANDENBROUCKE, M VARMA, R VASILIEV, AN VERTESI, R VIDEBAEK, F VIYOGI, YP VOKAL, S VOLOSHIN, SA VOSSEN, A WANG, F WANG, Y WANG, H WANG, JS WANG, Y WANG, G WEBB, G WEBB, JC WEN, L WESTFALL, GD WIEMAN, H WISSINK, SW WITT, R WU, YF XIAO, Z XIE, W XIN, K XU, YF XU, N XU, Z XU, QH XU, H YANG, Y YANG, Y YANG, C YANG, S YANG, Q YE, Z YEPES, P YI, L YIP, K YOO, IK YU, N ZBROSZCZYK, H ZHA, W ZHANG, XP ZHANG, JB ZHANG, J ZHANG, Z ZHANG, S ZHANG, Y ZHANG, JL ZHAO, F ZHAO, J ZHONG, C ZHOU, L ZHU, X ZOULKARNEEVA, Y ZYZAK, M
Subject	HEAVY-ION COLLISIONS QUARK-GLUON PLASMA ELLIPTIC FLOW NUCLEAR COLLISIONS QCD COLLABORATION PERSPECTIVE ENERGY MATTER
Description	Collisions between prolate uranium nuclei are used to study how particle production and azimuthal anisotropies depend on initial geometry in heavy-ion collisions. We report the two- and four-particle cumulants, v(2){2} and v(2){4}, for charged hadrons from U + U collisions at root s(NN) = 193 GeV and Au + Au collisions at root s(NN) = 200 GeV. Nearly fully overlapping collisions are selected based on the energy deposited by spectators in zero degree calorimeters (ZDCs). Within this sample, the observed dependence of v(2){2} on multiplicity demonstrates that ZDC information combined with multiplicity can preferentially select different overlap configurations in U + U collisions. We also show that v(2) vs multiplicity can be better described by models, such as gluon saturation or quark participant models, that eliminate the dependence of the multiplicity on the number of binary nucleon-nucleon collisions.
Publisher	AMER PHYSICAL SOC
Date	2016-01-15T08:47:38Z 2016-01-15T08:47:38Z 2015
Type	Article
Identifier	PHYSICAL REVIEW LETTERS, 115(22) 0031-9007 1079-7114 http://dx.doi.org/10.1103/PhysRevLett.115.222301 http://dspace.library.iitb.ac.in/jspui/handle/100/18200
Language	en