A heuristic description of high-pT hadron production in heavy ion collisions

Abstract

Using a simplified model for in-medium dipole evolution accounting for color filtering effects we study production of hadrons at large transverse momenta pT in heavy ion collisions. In the framework of this model, several important sources of the nuclear suppression observed recently at RHIC and LHC have been analysed. A short production length of the leading hadron lp causes a strong onset of color transparency effects manifested themselves as a steep rise of the nuclear modification factor RAA(pT) at large hadron pT's. A dominance of quarks with higher lp leads to a weaker suppression at RHIC than the one observed at LHC. In the RHIC kinematic region we include an additional suppression factor steeply falling with pT, which is tightly related to the energy conservation constraints. The latter is irrelevant at LHC up to pT 70 GeV while it causes a rather flat pT dependence of the RAA(pT) factor at RHIC c.m. energy s = 200 GeV and even an increasing suppression with pT at s = 62 GeV. The calculations contain only a medium density adjustment, and for an initial time scale t0 = 1 fm we found the energy-dependent maximal values of the transport coefficient, q0 = 0.7, 1.0 and 1.3 GeV2/fm corresponding to s = 62, 200 GeV and 2.76 TeV, respectively. We present a broad variety of predictions for the nuclear modification factor and the azimuthal asymmetry which are in a good agreement with available data from experiments at RHIC and LHC.