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Arsene, I.; Bearden, I.G.; Beavis, D.; Besliu, C.; Budick, B.; Bøggild, H.; Chasman, C.; Christensen, C.H.; Christiansen, P.; Cibor, J.; Debbe, R.; Enger, E.; Gaardhøje, J.J.; Germinario, M.; Hansen, O.; Holm, A.; Holme, A.K.; Hagel, K.; Ito, H.; Jakobsen, E.; Jipa, A.; Jundt, F.; Jørdre, J.I.; Jørgensen, C.E.; Karabowicz, R.; Kim, E.J.; Kozik, T.; Larsen, T.M.; Lee, J.H.; Lee, Y.K.; Lindahl, S.; Løvhøiden, G.; Majka, Z.; Makeev, A.; Mikelsen, M.; Murray, M.J.; Natowitz, J.; Neumann, B.; Nielsen, B.S.; Ouerdane, D.; Płaneta, R.; Rami, F.; Ristea, C.; Ristea, O.; Röhrich, D.; Samset, B.H.; Sandberg, D.; Sanders, S.J.; Scheetz, R.A.; Staszel, P.; Tveter, T.S.; Videbæk, F.; Wada, R.; Yin, Z.; Zgura, I.S.
Nuclear physics. A, 08/2005, Letnik: 757, Številka: 1Journal Article
We review the main results obtained by the BRAHMS Collaboration on the properties of hot and dense hadronic and partonic matter produced in ultrarelativistic heavy ion collisions at RHIC. A particular focus of this paper is to discuss to what extent the results collected so far by BRAHMS, and by the other three experiments at RHIC, can be taken as evidence for the formation of a state of deconfined partonic matter, the so-called quark–gluon plasma (QGP). We also discuss evidence for a possible precursor state to the QGP, i.e., the proposed color glass condensate.
