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Observation of Two-Source Interference in the Photoproduction Reaction AuAu -> AuAu rho(0)
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SYSNO ASEP 0338528 Document Type J - Journal Article R&D Document Type Journal Article Subsidiary J Článek ve WOS Title Observation of Two-Source Interference in the Photoproduction Reaction AuAu -> AuAu rho(0) 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. 102, č. 11 (2009), 112301/1-112301/7Number of pages 7 s. Language eng - English Country US - United States Keywords heavy-ion collisions ; interference ; photoproduction Subject RIV BG - Nuclear, Atomic and Molecular Physics, Colliders R&D Projects LC07048 GA MŠMT - Ministry of Education, Youth and Sports (MEYS) GA202/07/0079 GA ČR - Czech Science Foundation (CSF) CEZ AV0Z10480505 - UJF-V (2005-2011) AV0Z10100502 - FZU-D (2005-2011) UT WOS 000264380200020 DOI 10.1103/PhysRevLett.102.112301 Annotation In ultraperipheral relativistic heavy-ion collisions, a photon from the electromagnetic field of one nucleus can fluctuate to a quark-antiquark pair and scatter from the other nucleus, emerging as a rho(0). The rho(0) production occurs in two well-separated (median impact parameters of 20 and 40 F for the cases considered here) nuclei, so the system forms a two-source interferometer. At low transverse momenta, the two amplitudes interfere destructively, suppressing rho(0) production. Since the rho(0) decays before the production amplitudes from the two sources can overlap, the two-pion system can only be described with an entangled nonlocal wave function, and is thus an example of the Einstein-Podolsky-Rosen paradox. We observe this suppression in 200 GeV per nucleon-pair gold-gold collisions. The interference is 87%+/- 5%(stat.)+/- 8%(syst.) of the expected level. This translates into a limit on decoherence due to wave function collapse or other factors of 23% at the 90% confidence level. Workplace Nuclear Physics Institute Contact Markéta Sommerová, sommerova@ujf.cas.cz, Tel.: 266 173 228 Year of Publishing 2010
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