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Growth of Long Range Forward-Backward Multiplicity Correlations with Centrality in Au plus Au Collisions at root s(NN)=200 GeV

SYSNO ASEP	0338689
Document Type	J - Journal Article
R&D Document Type	Journal Article
Subsidiary J	Článek ve WOS
Title	Growth of Long Range Forward-Backward Multiplicity Correlations with Centrality in Au plus Au Collisions at root s(NN)=200 GeV
Author(s)	Abelev, B. I. (US) Aggarwal, M. M. (IN) Ahammed, Z. (IN) Anderson, B. D. (US) Arkhipkin, D. (RU) Averichev, G. S. (RU) Balewski, J. (US) Barannikova, O. (RU) Barnby, L. S. (GB) Baudot, J. (FR) Baumgart, S. (US) Beavis, D.R. (US) Bellwied, R. (US) Benedosso, F. (NL) Betancourt, M.J. (US) Betts, R. R. (US) Bhasin, A. (IN) Bhati, A.K. (IN) Bichsel, H. (US) Bielčík, Jaroslav (UJF-V) Bielčíková, Jana (UJF-V)_{RID, ORCID, SAI} Biritz, B. (US) Bland, L.C. (US) Bombara, M. (RU) Bonner, B. E. (US) Botje, M. (US) Bouchet, J. (RU) Braidot, E. (NL) Brandin, A. V. (US) Bruna, E. (US) Bueltmann, S. (US) Burton, T. P. (US) Bysterský, Michal (UJF-V) Cai, X.Z. (CN) Caines, H. (US) Sanchez, M.C.D. (US) Catu, O. (US) Cebra, D. (US) Cendejas, R. (US) Cervantes, M.C. (US) Chajecki, Z. (US) Chaloupka, Petr (UJF-V)_RID Chattopadhyay, S. (IN) Chen, H.F. (CN) Chen, J.H. (CN) Cheng, J. (CN) Cherney, M. (US) Chikanian, A. (US) Choi, K.E. (KR) Christie, W. (US) Clarke, R.F. (US) Codrington, M.J.M. (US) Corliss, R. (US) Cormier, T.M. (US) Coserea, R. M. (RO) Cramer, J. G. (US) Crawford, H. J. (US) Das, D. (US) Dash, S. (IN) Daugherity, M. (US) De Silva, L.C. (US) Dedovich, T. G. (RU) DePhillips, M. (US) Derevschikov, A.A. (RU) de Souza, R.D. (BR) Didenko, L. (US) Djawotho, P. (US) Dunlop, J.C. (US) Mazumdar, M.R.D. (IN) Edwards, W.R. (US) Efimov, L.G. (RU) Elhalhuli, E. (GB) Elnimr, M. (US) Emelianov, V. (RU) Engelage, J. (US) Eppley, G. (US) Erazmus, B. (FR) Estienne, M. (FR) Eun, L. (US) Fachini, P. (US) Fatemi, R. (US) Fedorisin, J. (RU) Feng, A. (CN) Filip, P. (RU) Finch, E. (US) Fine, V. (US) Fisyak, Y. (US) Gagliardi, C. A. (US) Gaillard, L. (GB) Ganti, M. S. (IN) Gangaharan, D.R. (US) Garcia-Solis, E.J. (US) Geromitsos, A. (FR) Geurts, F. (US) Ghazikhanian, V. (US) Ghosh, P. (IN) Gorbunov, Y.N. (US) Gordon, A. (US) Grebenyuk, O. (NL) Grosnick, D. (US) Grube, B. (KR) Guertin, S.M. (BR) Guimaraes, K.S.F.F. (BR) Gupta, A. (IN) Gupta, N. (IN) Guryn, W. (US) Haag, B. (US) Hallman, T.J. (US) Hamed, A. (US) Harris, J.W. (US) He, W. (US) Heinz, M. (US) Heppelmann, S. (US) Hippolyte, B. (FR) Hirsch, A. (US) Hjort, E. (US) Hoffman, A.M. (US) Hoffmann, G.W. (US) Hofman, D.J. (US) Hollis, R.S. (US) Huang, H.Z. (US) Humanic, T.J. (US) Igo, G.. (US)
Author(s)	Iordanova, A. (US) Jacobs, P. (US) Jacobs, W.W. (US) Jakl, Pavel (UJF-V) Jena, C. (IN) Jin, F. (CN) Jones, C.L. (US) Jones, P.G. (GB) Joseph, J. (US) Judd, E.G. (US) Kabana, S. (FR) Kajimoto, K. (CN) Kang, K. (CN) Kapitán, Jan (UJF-V) Keane, D. (US) Kechechyan, A. (RU) Kettler, D. (US) Khodyrev, V.Yu. (RU) Kikola, D.P. (US) Kiryluk, J. (US) Kisiel, A. (US) Klein, S.R. (US) Knospe, A.G. (US) Kocoloski, A. (US) Koetke, D.D. (CN) Kopytine, M. (US) Korsch, W. (US) Kotchenda, L. (RU) Kushpil, Vasilij (UJF-V)_{ORCID, SAI} Kravtsov, P. (RU) Kravtsov, V.I. (RU) Krueger, K. (US) Krus, M. (CZ) Kuhn, C. (FR) Kumar, L. (IN) Kurnadi, P. (US) Lamont, M.A.C. (US) Landgraf, J.M. (US) LaPointe, S. (US) Lauret, J. (US) Lebedev, A. (RU) Lednický, Richard (FZU-D)_{RID, ORCID} Lee, Ch. (KR) Lee, J.H. (JP) Leight, W. (US) LeVine, M.J. (US) Li, N. (CN) Li, C. (CN) Li, Y. (CN) Lin, G. (US) Lindenbaum, S.J. (US) Lisa, M.A. (US) Liu, F. (US) Liu, J. (CN) Liu, L. (CN) Ljubicic, T. (US) Llope, W.J. (US) Longacre, R.S. (US) Love, W.A. (US) Lu, Y. (US) Ludlam, T. (US) Ma, G.L. (CN) Ma, Y.G. (CN) Mahapatra, D.P. (IN) Majka, R. (US) Mall, O.I. (US) Mangotra, L.K. (IN) Manweiler, R. (IN) Margetis, S. (US) Markert, C. (US) Matis, H.S. (US) Matulenko, Yu.A. (RU) McShane, T.S. (US) Meschanin, A. (US) Milner, R. (US) Minaev, N.G. (RU) Mioduszewski, S. (US) Mischke, A. (NL) Mitchell, J. (US) Mohanty, B. (IN) Morozov, D.A. (RU) Munhoz, M. G. (BR) Nandi, B.K. (IN) Nattrass, C. (GB) Nayak, T. K. (IN) Nelson, J.M. (GB) Netrakanti, P.K. (US) Ng, M.J. (US) Nogach, L.V. (RU) Nurushev, S.B. (RU) Odyniec, G. (US) Ogawa, A. (RU) Okada, H. (US) Okorokov, V. (RU) Olson, D. (US) Pachr, M. (CZ) Page, B.S. (US) Pal, S.K. (IN) Pandit, Y. (US) Panebratsev, Y. (RU) Panitkin, S.Y. (US) Pawlak, T. (PL) Peitzmann, T. (NL) Perevoztchikov, V. (US) Perkins, C. (IN) Peryt, W. (IN) Phatak, S.C. (IN) Poljak, N. (HR) Poskanzer, A.M. (US) Potukuchi, B.V.K.S. (US) Prindle, D. (US) Pruneau, C. (US) Pruthi, N.K. (IN) Putschke, J. (US) Raniwala, R. (IN) Raniwala, S. (IN) Ray, R.L. (US) Redwine, R. (US) Reed, R. (US) Ridiger, A. (FR) Ritter, H.G. (US) Roberts, J.B. (US) Rogachevskiy, O.V. (RU) Romero, J.L. (US)
Author(s)	Rose, A. (US) Roy, C. (FR) Ruan, L. (US) Russcher, M.J. (NL) Sahoo, R. (FR) Sakrejda, I. (US) Sakuma, T. (US) Salur, S. (US) Sandweiss, J. (US) Sarsour, M. (US) Schambach, J. (US) Scharenberg, R.P. (US) Schmitz, N. (DE) Seger, J. (US) Selyuzhenkov, I. (US) Seyboth, P. (DE) Shabetai, A. (FR) Shahaliev, E. (RU) Shao, M. (CN) Sharma, M. (US) Shi, S.S. (CN) Shi, X.H. (CN) Sichtermann, E.P. (US) Simon, F. (DE) Singaraju, R.N. (IN) Skoby, M.J. (US) Smirnov, N. (US) Snellings, R. (NL) Sorensen, P. (US) Sowinski, J. (US) Spinka, H.M. (US) Srivastava, B. (US) Stadnik, A. (RU) Stanislaus, T.D.S. (US) Staszak, D. (US) Strikhanov, M. (RU) Stringfellow, B. (US) Suaide, A.A.P. (BR) Suarez, M.C. (US) Subba, N.L. (US) Šumbera, Michal (UJF-V)_{RID, ORCID, SAI} Sun, X.M. (US) Sun, Y. (CN) Sun, Z. (US) Surrow, B. (US) Symons, T.J.M. (US) de Toledo, A. S. (BR) Takahashi, J. (BR) Tang, A.H. (US) Tang, Z. (CN) Tarnowsky, T. (US) Thein, D. (US) Thomas, J.H. (US) Tian, J. (CN) Timmins, A.R. (GB) Timoshenko, S. (RU) Tokarev, M. V. (RU) Trainor, T.A. (US) Tram, V.N. (US) Trattner, A.L. (US) Trentalange, S. (US) Tribble, R. E. (US) Tsai, O.D. (US) Ulery, J. (US) Ullrich, T. (US) Underwood, D.G. (US) Van Buren, G. (US) van Leeuwen, M. (NL) Vander Molen, A.M. (US) Vanfossen, J.A. (US) Varma, R. (IN) Vasconcelos, G.S.M. (BR) Vasilevski, I.M. (RU) Vasiliev, A. N. (RU) Videbaek, F. (US) Vigdor, S.E. (US) Viyogi, Y. P. (IN) Vokal, S. (RU) Voloshin, S.A. (US) Wada, M. (US) Walker, M. (US) Wang, F. (US) Wang, G. (US) Wang, J.S. (CN) Wang, Q. (US) Wang, X. (CA) Wang, X.L. (CN) Wang, Y. (CN) Webb, G. (US) Webb, J.C. (US) Westfall, G.D. (US) Whitten, C. (US) Wieman, H. (US) Wissink, S.W. (US) Witt, R. (US) Wu, Y. (CN) Tlustý, David (UJF-V) Xie, W. (US) Xu, N. (US) Xu, Q.H. (US) Xu, Y. (CN) Xu, Z. (US) Yang, P. (CN) Yepes, P. (US) Yip, K. (US) Yoo, I.K. (KP) Yue, Q. (CN) Zawisza, M. (PL) Zbroszczyk, H. (PL) Zhan, W. (CN) Zhang, S. (CN) Zhang, W.M. (US) Zhang, X.P. (US) Zhang, Y. (US) Zhang, Z. (CN) Zhao, Y. (CN) Zhong, C. (CN) Zhou, J. (US) Zoulkarneev, R. (RU) Zoulkarneeva, Y. (RU) Zuo, J.X. (CN)
Source Title	Physical Review Letters. - : American Physical Society - ISSN 0031-9007 Roč. 103, č. 17 (2009), 172301/1-172301/6
Number of pages	6 s.
Language	eng - English
Country	US - United States
Keywords	GLUON DISTRIBUTION-FUNCTIONS ; HEAVY-ION COLLISIONS ; RAPIDITY CORRELATIONS
Subject RIV	BG - Nuclear, Atomic and Molecular Physics, Colliders
R&D Projects	GA202/07/0079 GA ČR - Czech Science Foundation (CSF)
	LC07048 GA MŠMT - Ministry of Education, Youth and Sports (MEYS)
CEZ	AV0Z10480505 - UJF-V (2005-2011)
	AV0Z10100502 - FZU-D (2005-2011)
UT WOS	000271164500017
DOI	10.1103/PhysRevLett.103.172301
Annotation	Forward-backward multiplicity correlation strengths have been measured with the STAR detector for Au + Au and p + p collisions at root s(NN) = 200 GeV. Strong short- and long-range correlations (LRC) are seen in central Au + Au collisions. The magnitude of these correlations decrease with decreasing centrality until only short-range correlations are observed in peripheral Au + Au collisions. Both the dual parton model (DPM) and the color glass condensate (CGC) predict the existence of the long-range correlations. In the DPM, the fluctuation in the number of elementary (parton) inelastic collisions produces the LRC. In the CGC, longitudinal color flux tubes generate the LRC. The data are in qualitative agreement with the predictions of the DPM and indicate the presence of multiple parton interactions.
Workplace	Nuclear Physics Institute
Contact	Markéta Sommerová, sommerova@ujf.cas.cz, Tel.: 266 173 228
Year of Publishing	2010

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