An almost-entirely precise empirical estimation for various chemical potentials

Abstract

The transverse momentum spectra of the well-identified produced particles, π+, π-, K+, K-, p, p, Ks0, , , -, and + are analyzed in a statistical approach. From the partition function of grand-canonical ensemble, we propose a generic expression for the dependence of the generic chemical potential μ on the rapidity y. Then, by fitting this expression to the experimental results on the most central p and d2 N/2 π p dp dy, at energies ranging from 7.7 to 200~GeV, we have introduced a generic expression for the rapidity dependence of μ, at different energies, namely μ=a+b y2, where a and b is constants. We find that the resulting energy dependence sNN=c[(μ-a)/b]d/2 agrees well with the statistical thermal models. We also present precise estimations of various types of chemical potentials, μB, μS, and μQ, the baryon, the strangeness, and the charge chemical potential, respectively.