Centrality dependence of chemical freeze-out parameters from net-proton and net-charge fluctuations using hadron resonance gas model

Abstract

We estimate chemical freeze-out parameters in HRG and EVHRG model by fitting the experimental information of net-proton and net-charge fluctuations measured in Au + Au collisions by the STAR collaboration at RHIC. We observe that chemical freeze-out parameters obtained from lower and higher order fluctuations are though almost same for sNN > 27 GeV, tend to deviate from each other at lower sNN. Moreover, these separations increase with decrease of sNN and for a fixed sNN increase towards central collisions. Furthermore, we observe an approximate scaling behaviour of (μB/T)/(μB/T)central with (Npart)/(Npart)central for the parameters estimated from lower order fluctuations for 11.5 GeV sNN 200 GeV. Scaling is violated for the parameters estimated from higher order fluctuations for sNN= 11.5 and 19.6 GeV. It is observed that the chemical freeze-out parameter, which can describe σ2/M of net-proton very well in all energies and centralities, can not describe the sσ equally well and vice versa.