%0 Journal Article
%@ 0031-9007
%A Adams, J
%A Aggarwal, MM
%A Ahammed, Z
%A Amonett, J
%A Anderson, BD
%A Arkhipkin, D
%A Averichev, GS
%A Badyal, SK
%A Bai, Y
%A Balewski, J
%A Barannikova, O
%A Barnby, LS
%A Baudot, J
%A Bekele, S
%A Belaga, VV
%A Bellingeri-Laurikainen, A
%A Bellwied, R
%A Berger, J
%A Bezverkhny, BI
%A Bhardwaj, S
%A Bhasin, A
%A Bhati, AK
%A Bichsel, H
%A Bielcik, J
%A Bielcikova, J
%A Billmeier, A
%A Bland, LC
%A Blyth, CO
%A Blyth, S
%A Bonner, BE
%A Botje, M
%A Boucham, A
%A Bouchet, J
%A Brandin, AV
%A Bravar, A
%A Bystersky, M
%A Cadman, RV
%A Cai, XZ
%A Caines, H
%A Sanchez, MCDL
%A Castillo, J
%A Catu, O
%A Cebra, D
%A Chajecki, Z
%A Chaloupka, P
%A Chattopadhyay, S
%A Chen, HF
%A Chen, Y
%A Cheng, J
%A Cherney, M
%A Chikanian, A
%A Christie, W
%A Coffin, JP
%A Cormier, TM
%A Cosentino, MR
%A Cramer, JG
%A Crawford, HJ
%A Das, D
%A Das, S
%A de Moura, MM
%A Dedovich, TG
%A Derevschikov, AA
%A Didenko, L
%A Dietel, T
%A Dogra, SM
%A Dong, WJ
%A Dong, X
%A Draper, JE
%A Du, F
%A Dubey, AK
%A Dunin, VB
%A Dunlop, JC
%A Mazumdar, MRD
%A Eckardt, V
%A Edwards, WR
%A Efimov, LG
%A Emelianov, V
%A Engelage, J
%A Eppley, G
%A Erazmus, B
%A Estienne, M
%A Fachini, P
%A Faivre, J
%A Fatemi, R
%A Fedorisin, J
%A Filimonov, K
%A Filip, P
%A Finch, E
%A Fine, V
%A Fisyak, Y
%A Fornazier, KSF
%A Fu, J
%A Gagliardi, CA
%A Gaillard, L
%A Gans, J
%A Ganti, MS
%A Geurts, F
%A Ghazikhanian, V
%A Ghosh, P
%A Gonzalez, JE
%A Gos, H
%A Grachov, O
%A Grebenyuk, O
%A Grosnick, D
%A Guertin, SM
%A Guo, Y
%A Gupta, A
%A Gutierrez, TD
%A Hallman, TJ
%A Hamed, A
%A Hardtke, D
%A Harris, JW
%A Heinz, M
%A Henry, TW
%A Hepplemann, S
%A Hippolyte, B
%A Hirsch, A
%A Hjort, E
%A Hoffmann, GW
%A Horner, M
%A Huang, HZ
%A Huang, SL
%A Hughes, EW
%A Humanic, TJ
%A Igo, G
%A Ishihara, A
%A Jacobs, P
%A Jacobs, WW
%A Jedynak, M
%A Jiang, H
%A Jones, PG
%A Judd, EG
%A Kabana, S
%A Kang, K
%A Kaplan, M
%A Keane, D
%A Kechechyan, A
%A Khodyrev, VY
%A Kiryluk, J
%A Kisiel, A
%A Kislov, EM
%A Klay, J
%A Klein, SR
%A Koetke, DD
%A Kollegger, T
%A Kopytine, M
%A Kotchenda, L
%A Kowalik, KL
%A Kramer, M
%A Kravtsov, P
%A Kravtsov, VI
%A Krueger, K
%A Kuhn, C
%A Kulikov, AI
%A Kumar, A
%A Kutuev, RK
%A Kuznetsov, AA
%A Lamont, MAC
%A Landgraf, JM
%A Lange, S
%A Laue, F
%A Lauret, J
%A Lebedev, A
%A Lednicky, R
%A Lehocka, S
%A LeVine, MJ
%A Li, C
%A Li, Q
%A Li, Y
%A Lin, G
%A Lindenbaum, SJ
%A Lisa, MA
%A Liu, F
%A Liu, H
%A Liu, J
%A Liu, L
%A Liu, QJ
%A Liu, Z
%A Ljubicic, T
%A Llope, WJ
%A Long, H
%A Longacre, RS
%A Lopez-Noriega, M
%A Love, WA
%A Lu, Y
%A Ludlam, T
%A Lynn, D
%A Ma, GL
%A Ma, JG
%A Ma, YG
%A Magestro, D
%A Mahajan, S
%A Mahapatra, DP
%A Majka, R
%A Mangotra, LK
%A Manweiler, R
%A Margetis, S
%A Markert, C
%A Martin, L
%A Marx, JN
%A Matis, HS
%A Matulenko, YA
%A McClain, CJ
%A McShane, TS
%A Meissner, F
%A Melnick, Y
%A Meschanin, A
%A Miller, ML
%A Minaev, NG
%A Mironov, C
%A Mischke, A
%A Mishra, DK
%A Mitchell, J
%A Mohanty, B
%A Molnar, L
%A Moore, CF
%A Morozov, DA
%A Munhoz, MG
%A Nandi, BK
%A Nayak, SK
%A Nayak, TK
%A Nelson, JM
%A Netrakanti, PK
%A Nikitin, VA
%A Nogach, LV
%A Nurushev, SB
%A Odyniec, G
%A Ogawa, A
%A Okorokov, V
%A Oldenburg, M
%A Olson, D
%A Pal, SK
%A Panebratsev, Y
%A Panitkin, SY
%A Pavlinov, AI
%A Pawlak, T
%A Peitzmann, T
%A Perevoztchikov, V
%A Perkins, C
%A Peryt, W
%A Petrov, VA
%A Phatak, SC
%A Picha, R
%A Planinic, M
%A Pluta, J
%A Porile, N
%A Porter, J
%A Poskanzer, AM
%A Potekhin, M
%A Potrebenikova, E
%A Potukuchi, BVKS
%A Prindle, D
%A Pruneau, C
%A Putschke, J
%A Rakness, G
%A Raniwala, R
%A Raniwala, S
%A Ravel, O
%A Ray, RL
%A Razin, SV
%A Reichhold, D
%A Reid, JG
%A Reinnarth, J
%A Renault, G
%A Retiere, F
%A Ridiger, A
%A Ritter, HG
%A Roberts, JB
%A Rogachevskiy, OV
%A Romero, JL
%A Rose, A
%A Roy, C
%A Ruan, L
%A Russcher, MJ
%A Sahoo, R
%A Sakrejda, I
%A Salur, S
%A Sandweiss, J
%A Sarsour, M
%A Savin, I
%A Sazhin, PS
%A Schambach, J
%A Scharenberg, RP
%A Schmitz, N
%A Schweda, K
%A Seger, J
%A Seyboth, P
%A Shahaliev, E
%A Shao, M
%A Shao, W
%A Sharma, M
%A Shen, WQ
%A Shestermanov, KE
%A Shimanskiy, SS
%A Sichtermann, E
%A Simon, F
%A Singaraju, RN
%A Smirnov, N
%A Snellings, R
%A Sood, G
%A Sorensen, P
%A Sowinski, J
%A Speltz, J
%A Spinka, HM
%A Srivastava, B
%A Stadnik, A
%A Stanislaus, TDS
%A Stock, R
%A Stolpovsky, A
%A Strikhanov, M
%A Stringfellow, B
%A Suaide, AAP
%A Sugarbaker, E
%A Suire, C
%A Sumbera, M
%A Surrow, B
%A Swanger, M
%A Symons, TJM
%A de Toledo, AS
%A Tai, A
%A Takahashi, J
%A Tang, AH
%A Tarnowsky, T
%A Thein, D
%A Thomas, JH
%A Timoshenko, S
%A Tokarev, M
%A Trainor, TA
%A Trentalange, S
%A Tribble, RE
%A Tsai, OD
%A Ulery, J
%A Ullrich, T
%A Underwood, DG
%A Buren, GV
%A van Leeuwen, M
%A Molen, AMV
%A Varma, R
%A Vasilevski, IM
%A Vasiliev, AN
%A Vernet, R
%A Vigdor, SE
%A Viyogi, YP
%A Vokal, S
%A Voloshin, SA
%A Waggoner, WT
%A Wang, F
%A Wang, G
%A Wang, G
%A Wang, XL
%A Wang, Y
%A Wang, Y
%A Wang, ZM
%A Ward, H
%A Watson, JW
%A Webb, JC
%A Westfall, GD
%A Wetzler, A
%A Whitten, C
%A Wieman, H
%A Wissink, SW
%A Witt, R
%A Wood, J
%A Wu, J
%A Xu, N
%A Xu, Z
%A Xu, ZZ
%A Yamamoto, E
%A Yepes, P
%A Yurevich, VI
%A Zborovsky, I
%A Zhang, H
%A Zhang, WM
%A Zhang, Y
%A Zhang, ZP
%A Zoulkarneev, R
%A Zoulkarneeva, Y
%A Zubarev, AN
%A STAR Collaboration
%D 2005
%F discovery:1324886
%I AMERICAN PHYSICAL SOC
%J PHYS REV LETT
%K NUCLEAR COLLISIONS, CROSS-SECTIONS, AU COLLISIONS, DETECTOR, MODEL
%N 6
%T Multiplicity and pseudorapidity distributions of photons in Au+Au collisions at root s(NN)=62.4 GeV
%U https://discovery.ucl.ac.uk/id/eprint/1324886/
%V 95
%X We present the first measurement of pseudorapidity distribution of photons in the region 2.3 <= eta <= 3.7 for different centralities in Au+Au collisions at root sNN = 62.4 GeV. We find that the photon yield scales with the number of participating nucleons at all collision centralities studied. The pseudorapidity distribution of photons, dominated by pi(0) decays, has been compared to those of charged pions, photons, and inclusive charged particles from heavy-ion and nucleon-nucleon collisions at various energies. The photon production has been shown to be consistent with the energy and centrality independent limiting fragmentation scenario.
%Z © 2005 The American Physical Society