Dependence of related parameters on centrality and mass in a new treatment for transverse momentum spectra in high energy collisions

Abstract

We collected the experimental data of transverse momentum spectra of identified particles produced in proton-proton (p-p), deuteron-gold (d-Au or d-A), gold-gold (Au-Au or A-A), proton-lead (p-Pb or p-A), and lead-lead (Pb-Pb or A-A) collisions measured by the ALICE, CMS, LHCb, NA49, NA61/SHINE, PHENIX, and STAR collaborations at different center-of mass energies. The multisource thermal model at the quark level or the participant quark model is used to describe the experimental data. The free parameters, the effective temperature T, entropy index-related n, and revised index a0, in the revised Tsallis--Pareto-type function are extracted at the quark level. In most cases, T and n in central collisions are larger than those in peripheral collisions, and a0 does not change in different centrality classes. With the increase in the mass of produced particle or participant quark, T and a0 increase, and n does not change significantly. The behaviors of related parameters from p-p, p(d)-A, and A-A collisions are similar.