Transverse-energy distributions at midrapidity in p+p , d+Au , and Au+Au collisions at $sqrt{s_{NN}}=62.4–200$ GeV and implications for particle-production models

S.S. Adler,P.L. McGaughey,H. Iinuma,F. Deak,C.R. Cleven,J. Wessels,J. Kikuchi, T. Chujo, C.F. Maguire,V.I. Manko,H. Kobayashi,J. Jin,K.H. Tanaka, V. Veszpremi,H. Masui,A. Franz,E.J. Kim,K.S. Sim,H. Ohnishi,A. Litvinenko,T. Csorgo, E. Haslum,Y. Le Bornec,Y. Watanabe, C. Aidala,S. Mioduszewski,K. Das,A.K. Dubey, M.J. Tannenbaum, S.N. White, T.V. Moukhanova,A. Drees, X. He,S. Batsouli, R.K. Choudhury, Y. Miake, N. Grau,J. Park, B.V. Jacak,S. Chernichenko, J.T. Mitchell, L. Kochenda, V. Pantuev,F. Gastineau, V. Papavassiliou, J. Gosset,M. Togawa, M. Gonin,C. Finck,V. Semenov, D.P. Morrison, B. Bassalleck,J.S. Haggerty,T. Kawagishi, S.S. Ryu, S.F. Pate, C.H. Kuberg, H. Torii, G.R. Young, E. Kistenev, Y. Riabov, W.E. Sondheim,H. Pereira,A. Durum,N. Kamihara,K. Tanida, M. Csanad, D. Isenhower, T. Sakaguchi,B.D. Fox,K. Oyama,T. Matsumoto, K.N. Barish, R.P. Pisani, M.L. Brooks,K. Boyle,A. Ster,V. Bumazhnov,P. Rukoyatkin, K. Shigaki,S.L. Fokin,N. Kurihara,T. Tabaru, G. Roche, D. Kotchetkov,S. Nagamiya,T. Gunji, H.D. Sato, M.X. Liu,V. Baublis,S. Sato, S.V. Greene, J.M. Heuser, K. Katou,D.Yu. Peressounko, S. Esumi,T. Isobe, M. Inaba,B. Hong, J. Murata, G.B. Kim,Y.S. Kim, T. Nakamura, D. Dutta,A. Kiss,S. Sakai, J. Newby,R. Granier de Cassagnac,D. Mukhopadhyay,D. Winter, M.K. Lee, A.A. Vinogradov,H. Valle, B. Espagnon, R. Armendariz,M. Reuter,D. d'Enterria,G. Martinez, J.M. Qualls, M.A.L. Leite, V. Singh, D.M. Lee, M.L. Purschke,A. Soldatov,F. Fleuret, A. Yanovich,X. Zong,H. Pei, S.P. Stoll, G.C. Mishra, M.J. Leitch, O. Jinnouchi, A.S. Nyanin,T.A. Shibata,R. Bennett,L. Sanfratello, X.H. Li, K. Kurita, J.C. Hill,H. Hiejima,V-N. Tram, M.P. Comets,A. Hoover, Y. Tanaka, J. Nystrand, R.S. Towell, P. Hidas, M.N. Hagiwara, H. Delagrange, J. Jia,O. Zaudtke,H.J. Kim,D. Sharma,S. Gadrat, E. Kinney,A. Dion,N. Bruner,J.S. Chai, R. Seto, I.V. Sourikova, E. O'Brien, T. Hachiya, K. Imai,A. Denisov,M. Grosse Perdekamp, J.M. Burward-Hoy,A. Devismes, S. Afanasiev,M. Harvey, P. Rosnet,H.A. Gustafsson,D. Bucher, E. Kim, T.E. Miller, I. Younus, F. Kajihara,L. Zolin, J. Rak, M. Shimomura,B. Azmoun,A. Pierson,A. Bazilevsky, O. Drapier, G. David,B. Khachaturov, M. Chiu, D.E. Fields,P. Constantin,B. Forestier, A.K. Mohanty,S. Belikov, V. Riabov, J. Velkovska, C.P. Singh, T.K. Hemmick,H. Borel,J.P. Sullivan, S. Skutnik, C.L. Woody,J.P. Cussonneau, S. Butsyk,Y. Cobigo, F. Matathias, R. Kohara, T. Dahms, Volkov,M. Germain,S. Takagi, A. Kozlov,N. Willis, I. Ravinovich, M.C. McCain,F. Staley,A. Kiyomichi, S. Zhou, W. Xie,X.R. Wang, S.K. Tuli, S.H. Aronson, A. Malakhov, S.P. Sorensen, K.F. Read,J.E. Frantz, R. Hayano,Z. Fraenkel, S.S.E. Rosendahl, G.J. Kunde, Y. Goto, V. Penev, F. Bauer,Malik,H. En'yo, B.E. Norman, I.E. Yushmanov, E.M. Takagui,A. Hadj Henni, C. Suire, D. Jouan,M. Nguyen,W.C. Chang, R. Vertesi,W.C. Smith, N. Tyurin, V. Babintsev, S. Yokkaichi, B.M. Johnson, R.A. Soltz, H. Tydesjo, K. Homma, A. Sickles, I.J. Choi, A.V. Kazantsev, M. Issah, A.K. Purwar, A. Oskarsson,A. Milov,V. Cianciolo, N. Saito,Y. Berdnikov,H. Lim,M. Holmes, T. Sugitate, K. Reygers, M. Rosati,A.D. Frawley,J. Zimanyi,V. Dzhordzhadze, M. Stepanov, P.D. Barnes, I.D. Ojha,C. Zhang, J.M. Moss,M. Wysocki, C. Klein-Boesing, J. Alexander,M. Konno,R. Hobbs,N.N. Ajitanand, H. Buesching, G.S. Kyle, P. Chand, A. Lebedev, K.S. Joo, T.K. Shea,D.S. Brown, M.G. Hur,S.Y. Fung,C. Vale, Y. Tsuchimoto,K. Aoki, J. Sziklai, J.G. Lajoie, T.L. Thomas, A.G. Hansen, C. Pinkenburg,J. Egdemir, Y. Nagata,K. Ozawa, G. Bunce,S. Leckey, T.C. Awes,A. Al-Jamel, M.T. Bjorndal,C.Y. Chi,E.J. Desmond, V. Samsonov,J.C. Peng,K. Hasuko,T. Kawabata, L. Aphecetche,Y. Fukao,S. Bathe, Y.I. Makdisi, Y. Kwon, A. Taketani,O. Dietzsch,O.O. Omiwade, D. Silvermyr,W.J. Park,M. Ishihara, B. Sahlmueller,J. Chiba,K. Shoji, I. Shein,B.A. Cole,S. Kametani, K. Okada, V.L. Rykov, P.J. Kroon,A. Romana, T. Ichihara,Y. Schutz, Y.V. Efremenko, S. Sawada,S. Campbell, F.K. Wohn,D. Pal,H. Qu, M.J. Kweon,I. Otterlund, D.J. Kim,L. Isenhower, E.P. Hartouni, R. Santo,V. Kochetkov,A. Baldisseri, R. Averbeck, A. Isupov, T.J. Uam,H.W. van Hecke, M. Heffner, J.L. Drachenberg,M. Wagner, W.A. Zajc, R. Lacey,M. Kaneta, T. Horaguchi, I. Tserruya,Y. Mao, J. Tojo,S.C. Johnson, B. Komkov,T. Shohjoh,K. Haruna, C.A. Ogilvie, A. Glenn, H. Hamagaki, C.L. Silva,Y. Akiba, E. Vznuzdaev, J.G. Boissevain,V. Peresedov, M. Naglis,M. Muniruzzaman,P. Tarjan, A. Taranenko, J.L. Nagle, P.W. Stankus,J.H. Kang,M. Velkovsky,S. Kelly,W. Holzmann, A.P.T. Palounek,A. Enokizono,A. Deshpande,M. Inuzuka, X. Camard,H. Harada, V.V. Ikonnikov, E. Stenlund, A. Khanzadeev

Physical Review C（2014）

引用 88|浏览89

暂无评分

摘要

Measurements of the midrapidity transverse-energy distribution, dE(T)/d eta, are presented for p + p, d+Au, and Au+Au collisions atv root s(NN) = 200 GeV and additionally for Au+Au collisions atv root s(NN) = 62.4 and 130 GeV. The dE(T)/d eta distributions are first compared with the number of nucleon participants N-part, number of binary collisions N-coll, and number of constituent-quark participants N-qp calculated from a Glauber model based on the nuclear geometry. For Au+Au, < dE(T)/d eta >/N-part increases with N-part, while < dE(T)/d eta >/N-qp is approximately constant for all three energies. This indicates that the two-component ansatz, dE(T)/d eta alpha (1 - x)N-part/2 + xN(coll), which was used to represent E-T distributions, is simply a proxy for N-qp, and that the N-coll term does not represent a hard-scattering component in E-T distributions. The dE(T)/d eta distributions of Au+Au and d+Au are then calculated from the measured p + p E-T distribution using two models that both reproduce the Au+Au data. However, while the number-of-constituent-quark-participant model agrees well with the d+Au data, the additive-quark model does not.

查看译文

AI 理解论文

溯源树

样例

生成溯源树，研究论文发展脉络

Chat Paper

正在生成论文摘要