Neutral pion production inAu+Aucollisions atsNN=200GeV

B I Abelev,M Zawisza,A Kocoloski,A Szanto De Toledo,M C Cervantes,J Sandweiss,J Cheng,C Perkins,G Van Buren,A Iordanova,A Ridiger,J E Draper,A V Alakhverdyants,J L Romero,B Stringfellow,S E Vigdor,R S Longacre,A Hamed,D Thein,H Z Huang,H M Spinka,V Ghazikhanian,R L Ray,S W Wissink,L H Tarini,F Benedosso,E Shahaliev,P Seyboth,B Haag,O V Rogachevskiy,M Cherney,P Yepes,A A Derevschikov,S Lapointe,J Takahashi,A V Brandin,W Christie,G Lin,E P Sichtermann,P Fachini,E Hjort,E Braidot,S Mioduszewski,D Tlusty,T S Mcshane,G Eppley,N L Subba,R S Hollis,L Didenko,Y Zhang,G Wang,P Djawotho,O Barannikova,Y Zoulkarneeva,Y P Viyogi,B Biritz,D Cebra,T Pawlak,L Ruan,H Bichsel,V I Kravtsov,G D Westfall,W J Llope,A Feng,J W Harris,O Catu,H Caines,P Pile,A Rose,Y Panebratsev,H Masui,D Keane,W Guryn,H G Ritter,E Elhalhuli,Y Fisyak,M Shao,M J Russcher,D R Gangadharan,V Fine,L Eun,H J Crawford,A Ogawa,K Yip,C Roy,J Ulery,K Krueger,J G Cramer,J Schambach,K Kajimoto,A H Tang,J Engelage,M Sarsour,M Heinz,D P Mahapatra,J Bouchet,S Heppelmann,K Kauder,M J Skoby,R Zoulkarneev,R Witt,T J Hallman,L V Nogach,A K Bhati,R P Scharenberg,J Baudot,J M Nelson,M Pachr,M Strikhanov,W W Jacobs,R Manweiler,V Perevoztchikov,J Konzer,T G Dedovich,G Odyniec,E Finch,L G Efimov,H S Matis,N K Pruthi,S Timoshenko,M Tokarev,W Peryt,S Kabana,P Kurnadi,M Dephillips,N Xu,G Igo,J C Dunlop,R Cendejas,D G Underwood,R Corliss,C A Gagliardi,P Chaloupka,N G Minaev,G S Averichev,J Lauret,J A Vanfossen,A G Knospe,A Lebedev,B Grube,Y N Gorbunov,T J Humanic,M Estienne,S Margetis,D Staszak,S B Nurushev,J Balewski,A Geromitsos,R Varma,M S Ganti,X Dong,Y Pandit,T Ullrich,I Koralt,J Pluta,P Sorensen,F Liu,Z P Zhang,J M Landgraf,L Huo,L K Mangotra,I Sakrejda,W A Love,B E Bonner,A Kechechyan,A Gordon,B S Page,L C Bland,G Webb,S C Phatak,Y Li,A Chikanian,S J Lindenbaum,T P Burton,G Van Nieuwenhuizen,S M Guertin,P Filip,R E Tribble,J Kapitan,D D Koetke,B Erazmus,R Derradi De Souza,L Kotchenda,M C Suarez,J L Drachenberg,D Grosnick,V Kouchpil,S Bueltmann,T Tarnowsky,L Gaillard,S Trentalange,I Bnzarov,M J Levine,M Kopytine,S R Klein,D Arkhipkin,O D Tsai,M R Cosentino,R Fatemi,M A Lisa,N Schmitz,T K Nayak,A M Poskanzer,E G Judd,M Bombara,T Peitzmann,M Elnimr,A Shabetai,V Okorokov,Y Wu,M Wada,H Wang,J Liu,X L Wang,A Hirsch,M C Sanchez ,B K Nandi,X Zhu,L C.de Silva ,Z Tang,M Walker,H F Chen,Y Yang,T J M Symons ,D Plyku,M G Munhoz,M J Ng,X Cai ,D Mcdonald,K Choi ,R Sahoo,Q Wang,Y Wang,E Bruna,Z Chajęcki ,C L Jones,K Kang,M Planinić ,C Jena,B Mohanty,S Dogra ,L S Barnby,R Redwine,M M Aggarwal,S Sakai,T Ljubičić ,L Liu,J Kiryluk,J Roberts ,H Zbroszczyk,F Jin,A Kisiel,F Simon,N Li,Zhong Chen ,R Milner,Stephen Baumgart ,X Shi ,W Zhan,S A Voloshin,P Jakl,J H Chen,J Y Chen,J C Webb,M Krůs ,Q Yue,X P Zhang,J H Thomas,F J M Geurts ,J H Lee,T A Trainor,O Mall ,J Bielčík ,R Majka,D Beavis ,W M Zhang,R Bellwied,D Prindle,C Li,G L ,P R Pujahari,M Daugherity,D P Kikoła ,D J Hofman,C H Lee ,H Wieman,M Bysterský ,X Wang,Q H Xu,P Jacobs,J Sowiński ,Subhasis Chattopadhyay ,П Кравцов ,Jing Zhou ,M Šumbera ,R Raniwala,M Betancourt ,Thomas Michael Cormier ,I Selyuzhenkov,C Whitten,R F Clarke,N Smirnov,A Gupta,C Nattrass,M R Dutta Mazumdar ,V N Tram,C Kuhn,J Joseph,W Xie,A M Hoffman,Z Sun,S Dash,Subrata Pal ,Z Xu,D Olson,C Pruneau,V Yu Khodyrev ,W He,R R Betts,Y Z Sun ,C Markert,M J M Codrington ,K S.f.f Guimaraes ,M Sharma,A R Timmins,P K Netrakanti,O G Grebenyuk ,E García-Solis ,Д А Морозов ,Y G ,L Kumar,G M.s Vasconcelos ,M A.c Lamont ,A Mischke,B Surrow,J Seger,M Płoskoń ,A Meschanin,H Okada,N Poljak,B Potukuchi ,T D S Stanislaus ,B Hippolyte,Yuanfang Xu ,I K Yoo ,J Fedorišin ,G W Hoffmann,D Das,X M Sun,A Bhasin,A Vasiliev ,J X Zuo,R Lednický ,F Videbæk ,W Korsch,J Bielčíková ,J S Wang,S Zhang,Alexandre Alarcon Do Passo Suaide ,S Raniwala,T Ludlam,R Singaraju ,Y Zhao,S Salur,Yu A Matulenko,P Ghosh,S Vokál ,Z Ahammed,J Tian,Shuzhe Shi ,N Gupta,B D Anderson,David Kettler ,B Srivastava,P Jones ,R Reed,T Sakuma,Y Lu,F Wang,H Liu,W A Leight ,J Putschke

doi:10.1103/physrevc.80.044905

Abstract

The results of mid-rapidity ($0 < y < 0.8$) neutral pion spectra over an extended transverse momentum range ($1 < p_T < 12$ GeV/$c$) in $\sqrt{s_{NN}}$ = 200 GeV Au+Au collisions, measured by the STAR experiment, are presented. The neutral pions are reconstructed from photons measured either by the STAR Barrel Electro-Magnetic Calorimeter (BEMC) or by the Time Projection Chamber (TPC) via tracking of conversion electron-positron pairs. Our measurements are compared to previously published $\pi^{\pm}$ and $\pi^0$ results. The nuclear modification factors $R_{\mathrm{CP}}$ and $R_{\mathrm{AA}}$ of $\pi^0$ are also presented as a function of $p_T$ . In the most central Au+Au collisions, the binary collision scaled $\pi^0$ yield at high $p_T$ is suppressed by a factor of about 5 compared to the expectation from the yield of p+p collisions. Such a large suppression is in agreement with previous observations for light quark mesons and is consistent with the scenario that partons suffer considerable energy loss in the dense medium formed in central nucleus-nucleus collisions at RHIC.

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