Production of 0 meson with large pT at NLO in heavy-ion collisions

Abstract

Production of large transverse momentum 0 meson in high-energy nuclear collisions is investigated for the first time at the next-leading-order in the QCD improved parton model. The 0 fragmentation functions (FFs) in vacuum at any scale Q are obtained, by evolving a newly developed initial parametrization of 0 FFs at a scale Q02=1.5\ GeV2 from a broken SU(3) model through NLO DGLAP equations. The numerical simulations of p T spectra of 0 meson in the elementary p+p collisions at NLO give a decent description of STAR p+p data. In A+A reactions the jet quenching effect is taken into account with the higher-twist approach by the medium-modified parton FFs due to gluon radiation in the quark-gluon plasma, whose space-time evolution is described by a (3+1D) hydrodynamical model. The nuclear modification factors for 0 meson and its double ratio with π nuclear modification in central Au+Au collisions at the RHIC are calculated and found to be in good agreement with STAR measurement. Predictions of 0 nuclear modification and the yield ratio 0/π0 in central Pb+Pb at the LHC are also presented. It is shown that the ratio 0/π0 in central Pb+Pb will approach to that in p+p reactions when p T>12~GeV.