Non-thermal distributions of charm and charmonium in relativistic heavy-ion collisions

Abstract

We employ the Boltzmann transport model to study the charmonium regeneration with non-thermal charm quarks in relativistic heavy-ion collisions. As heavy quarks do not reach kinetic thermalization in the quark-gluon plasma (QGP), the final transverse momentum distribution of regenerated charmonium depends on the degree of charm quark kinetic thermalization. When the charm momentum distribution becomes harder, more charm quarks are distributed in the middle and high pT, where the production of regenerated charmonium also becomes larger. With non-thermal momentum distribution of charm quarks in their coalescence process, the nuclear modification factor RAA(pT) of charmonium enhances at middle pT. Besides, the elliptic flow v2(pT) of charmonium also enhances at middle pT as more regenerated charmonium are distributed in this pT region. The theoretical calculations with non-thermal charm distribution explain well the pT dependence of charmonium RAA and v2, which indicates that charm quarks do not reach complete kinetic thermalization in the QGP when charmonium are regenerated.