Thermodynamic Analysis of Transverse Momentum Spectra in Pb-Pb Collisions at 2.76 TeV: Centrality Dependence of Temperature, Freezeout Parameters and Non-Extensitivity

Abstract

We study properties of Pb-Pb collisions at 2.76 TeV in mid-rapidity, |y|<0.5, based on data by the ALICE Collaboration. In particular, we examine the transverse momentum (pT) spectra of positively charged (identified) hadrons, π+, K+ and p, generated in various centrality intervals. We perform individual fits using the thermodynamically consistent Tsallis distribution to extract the following quantities: the non-extensitivity parameter, q, the effective temperature, T eff, the kinetic freezeout volume, V, the mean transverse flow velocity, βT, the mean kinetic freezeout temperature, T0, the thermal temperature, T th, and the parameter ζ, which characterizes the fluctuating number of generated particles. From peripheral to central collision, and from lower to higher charged particle multiplicity per pseudorapidity unit, dN ch/dη , all these quantities are observed to increase, with the exception of q, which has the opposite behavior. The parameters T eff, q, and V depend on the hadron mass in a way that supports the scenarios of volume differential freezeout and multiple kinetic freezeout. Furthermore, we extracted T eff and q for different collisions and energies at LHC and RHIC, and compare their dependencies on dN ch/dη and N part .