Pseudorapidity dependence of parton energy loss in relativistic heavy ion collisions
Abstract
We analyze the recent data from the BRAHMS Collaboration on the pseudorapidity dependence of nuclear modification factors in Au+Au collisions at sNN = 200 GeV by using the full three dimensional hydrodynamic simulations for the density effects on parton energy loss. We first compute the transverse spectra at η=0 and 2.2, and next take a ratio Rη=RAA(η=2.2)/RAA(η=0), where RAA is a nuclear modification factor. It is shown that hydrodynamic components account for Rη 1 at low pT and that quenched pQCD components lead Rη < 1 at high pT which are consistent with the data. Strong suppression at η=2.2 is compatible with the parton energy loss in the final state.
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