Kinetic temperature and radial flow velocity estimation using identified hadrons and light (anti-)nuclei produced in relativistic heavy-ion collisions at RHIC and LHC

Abstract

We report the investigation of the kinetic freeze-out properties of identified hadrons (π, K and p( p)) along with light (anti-)nuclei d ( d), t ( t) and 3He in relativistic heavy-ion collisions at RHIC and LHC energies. A simultaneous fit is performed with the Blast-Wave (BW) model to the transverse momentum () spectra of identified hadrons together with light (anti-)nuclei produced in Au+Au collisions at = 7.7 -- 200 GeV at the RHIC and in Pb+Pb collisions at s_NN = 2.76 TeV at the LHC. The energy and centrality dependence of freeze-out parameters, i.e., kinetic freeze-out temperature (Tkin) and collective flow velocity β has been studied. It is observed that light (anti-)nuclei also participate in the collective expansion of the medium created in the collision when included in a common fit with the light hadrons. We observe a marginal rise in Tkin and a slight decrease in β when compared to the values obtained from the fit to light hadrons. A similar β and significantly larger Tkin is observed when a fit is performed to only protons and light (anti-)nuclei. Both, Tkin and β show a weak energy dependence at most collision energies.