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Longitudinal scaling property of the charge balance function in Au plus Au collisions at root s(NN)=200 GeV
- 1.
SYSNO ASEP 0348022 Document Type J - Journal Article R&D Document Type Journal Article Subsidiary J Článek ve WOS Title Longitudinal scaling property of the charge balance function in Au plus Au collisions at root s(NN)=200 GeV Author(s) Abelev, B. I. (US)
Aggarwal, M. M. (IN)
Ahammed, Z. (IN)
Alakhverdyants, A. V. (RU)
Anderson, B.D. (US)
Arkhipkin, D. (US)
Averichev, G. S. (RU)
Badyal, S. K. (IN)
Balewski, J. (US)
Barannikova, O. (US)
Barnby, L. S. (GB)
Baudot, J. (FR)
Baumgart, S. (US)
Beavis, D.R. (US)
Bellwied, R. (NL)
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)
Bnzarov, I. (RU)
Bombara, M. (GB)
Bonner, B.E. (US)
Bouchet, J. (US)
Braidot, E. (NL)
Brandin, A.V. (RU)
Bruna, E. (US)
Bueltmann, S. (US)
Burton, T.P. (GB)
Bysterský, Michal (UJF-V)
Cai, X.Z. (CN)
Caines, H. (US)
Calderon, M. (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. (US)
Chen, J.Y. (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. (BR)
Cosentino, M.R. (BR)
Cramer, J. G. (US)
Crawford, H. J. (US)
Das, D. (US)
Das, S. (IN)
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)
Dogra, S.M. (IN)
Dong, X. (US)
Drachenberg, J.L. (US)
Draper, J. E. (US)
Dunlop, J.C. (US)
Mazumdar, M.R.D. (IN)
Efimov, L.G. (RU)
Elhalhuli, E. (GB)
Elnimr, M. (US)
Engelage, J. (US)
Eppley, G. (US)
Erazmus, B. (FR)
Estienne, M. (FR)
Eun, L. (ed. 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)
Gangaharan, D.R. (US)
Ganti, M.S. (IN)
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. (US)
Grosnick, D. (US)
Grube, B. (KR)
Guertin, S.M. (US)
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)
Hepplemann, S. (US)
Hippolyte, B. (FR)
Hirsch, A. (US)
Hjort, E. (US)
Hoffman, A.M. (US)
Author(s) Hoffmann, G.W. (US)
Hofman, D.J. (US)
Hollis, R.S. (US)
Huang, H.Z. (US)
Humanic, T.J. (US)
Huo, L. (US)
Igo, G.. (US)
Lordanova, 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. (US)
Kang, K. (CN)
Kapitán, Jan (UJF-V)
Kauder, K. (US)
Keane, D. (US)
Kechechyan, A. (RU)
Kettler, D. (US)
Khodyrev, V.Yu. (RU)
Kikola, D.P. (US)
Kiryluk, J. (US)
Kisiel, A. (PL)
Klein, S.R. (US)
Knospe, A.G. (US)
Kocoloski, A. (US)
Koetke, D.D. (US)
Konzer, J. (US)
Kopytine, M. (US)
Koralt, I. (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. (US)
Lednický, Richard (FZU-D) RID, ORCID
Lee, Ch. (KR)
Lee, J.H. (US)
Leight, W. (US)
LeVine, M.J. (US)
Li, C. (CN)
Li, N. (CN)
Li, Y. (US)
Lin, G. (US)
Lindenbaum, S.J. (US)
Lisa, M.A. (US)
Liu, F. (CN)
Liu, H. (US)
Liu, J. (US)
Liu, L. (CN)
Ljubicic, T. (US)
Llope, W.J. (US)
Longacre, R.S. (US)
Love, W.A. (US)
Lu, Y. (CN)
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. (US)
Manweiler, R. (US)
Margetis, S. (US)
Markert, C. (US)
Masui, H. (US)
Matis, H.S. (US)
Matulenko, Yu.A. (RU)
McDonald, D. (US)
McShane, T.S. (US)
Meschanin, A. (US)
Millner, R. (US)
Minaev, N.G. (RU)
Mioduszewski, S. (US)
Mischke, A. (NL)
Mohanty, B. (IN)
Mondal, M.M. (IN)
Morozov, D.A. (RU)
Munhoz, M. G. (BR)
Nandi, B.K. (IN)
Nattrass, C. (US)
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. (US)
Okada, H. (US)
Okorokov, V. (RU)
Olson, D. (US)
Pachr, M. (CZ)
Page, B.S. (US)
Pal, S.K. (US)
Pandit, Y. (US)
Panebratsev, Y. (RU)
Pawlak, T. (PL)
Peitzmann, T. (NL)
Perevoztchikov, V. (US)
Perkins, C. (US)
Peryt, W. (PL)
Phatak, S.C. (IN)
Pile, P. (US)
Planinic, M. (HR)
Ploskon, M.A. (US)
Pluta, J. (PL)
Plyku, D. (US)
Poljak, N. (HR)
Author(s) Poskanzer, A.M. (US)
Potukuchi, B.V.K.S. (IN)
Prindle, D. (US)
Pruneau, C. (IN)
Pruthi, N.K. (IN)
Pujahari, P.R. (IN)
Putschke, J. (US)
Raniwala, R. (IN)
Raniwala, S. (IN)
Ray, R.L. (US)
Redwine, R. (US)
Reed, R. (US)
Ridiger, A. (RU)
Ritter, H.G. (US)
Roberts, J.B. (US)
Rogachevskiy, O.V. (RU)
Romero, J.L. (US)
Rose, A. (US)
Roy, C. (FR)
Ruan, L. (US)
Russcher, M.J. (NL)
Sahoo, R. (FR)
Sakai, S. (US)
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. (CN)
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)
Sorensen, P. (US)
Sowinski, J. (US)
Spinka, H.M. (US)
Srivastava, B. (US)
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. (CN)
Surrow, B. (US)
Symons, T.J.M. (US)
de Toledo, A. S. (BR)
Takahashi, J. (BR)
Tang, A.H. (US)
Tang, Z. (CN)
Tarini, L.H. (US)
Tarnowsky, T. (US)
Thein, D. (US)
Thomas, J.H. (US)
Tian, J. (CN)
Timmins, A.R. (RU)
Timoshenko, S. (RU)
Tlustý, David (UJF-V)
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)
van Nieuwenhuizen, G. (US)
Vanfossen, J.A. (US)
Varma, R. (IN)
Vasconcelos, G.M.S. (BR)
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, H. (US)
Wang, J.S. (CN)
Wang, Q. (US)
Wang, X. (CN)
Wang, X.L. (CN)
Wang, Y. (CN)
Webb, G. (US)
Westfall, G.D. (US)
Whitten, C. (US)
Wieman, H. (US)
Wissink, S.W. (US)
Witt, R. (US)
Wu, Y. (CN)
Xie, W. (US)
Xu, N. (US)
Xu, Q.H. (CN)
Xu, Y. (CN)
Xu, Z. (US)
Yang, Y. (CN)
Yepes, P. (US)
Yip, K. (US)
Yoo, K.-Y. (KR)
Yue, Q. (CN)
Zawisza, M. (CN)
Zbroszczyk, H. (PL)
Author(s) Zhan, W. (CN)
Zhang, S. (CN)
Zhang, W.M. (US)
Zhang, X.P. (US)
Zhang, Y. (US)
Zhang, Z.P. (CN)
Zhao, Y. (CN)
Zhong, C. (CN)
Zhou, J. (US)
Zhu, X. (CN)
Zoulkarneev, R. (RU)
Zoulkarneeva, Y. (RU)
Zuo, J.X. (CN)Source Title Physics Letters. B. - : Elsevier - ISSN 0370-2693
Roč. 690, č. 3 (2010), s. 239-244Number of pages 6 s. Language eng - English Country NL - Netherlands Keywords Longitudinal scaling ; Charge balance function ; Boost-invariance Subject RIV BG - Nuclear, Atomic and Molecular Physics, Colliders R&D Projects GA202/07/0079 GA ČR - Czech Science Foundation (CSF) LA09013 GA MŠMT - Ministry of Education, Youth and Sports (MEYS) CEZ AV0Z10480505 - UJF-V (2005-2011) AV0Z10100502 - FZU-D (2005-2011) UT WOS 000279388800007 DOI 10.1016/j.physletb.2010.05.028 Annotation We present measurements of the charge balance function, from the charged particles, for diverse pseudorapidity and transverse momentum ranges in Au + Au collisions at root S-NN = 200 GeV using the STAR detector at RHIC. We observe that the balance function is boost-invariant within the pseudorapidity coverage vertical bar-1.3, 1.3 vertical bar. The balance function properly scaled by the width of the observed pseudorapidity window does not depend on the position or size of the pseudorapidity window. This scaling property also holds for particles in different transverse momentum ranges. In addition, we find that the width of the balance function decreases monotonically with increasing transverse momentum for all centrality classes. Workplace Nuclear Physics Institute Contact Markéta Sommerová, sommerova@ujf.cas.cz, Tel.: 266 173 228 Year of Publishing 2011
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