Charm-strange meson production in ultra-relativistic heavy-ion collisions at the CERN-LHC energies

Abstract

The nuclear modification factor R AA and the elliptic flow coefficient v 2 of charm-strange meson D+s is systematically studied in Pb--Pb collisions at s NN=5.02~ TeV and 2.76~ TeV. During the modeling, the coupling strength between the injected charm quark and the incident medium constituents, is extracted from the lattice QCD calculations: 2π TDs=7 (Model-A) and 2π TDs=1.3 + (T/Tc)2 (Model-B). We find that, comparing R AA(D+s) with R AA(non-strange), the heavy-light coalescence effect is more pronounced for the former one, resulting in an enhancement behavior in the range 2 p T5~ GeV. The predictions of R AA(D+s) and R AA(non-strange) favor Model-A to have a better description of the measured p T dependence in both energies, while their v 2 prefer Model-B at moderate p T (2 p T4~ GeV). Therefore, it is necessary to consider the temperature- and/or momentum-dependence of 2π TDs to describe simultaneously R AA(D+s) and v 2(D+s) in different centrality classes in Pb--Pb collisions.