Effects of the Tsallis distribution in the linear sigma model

Abstract

The effects of the Tsallis distribution which has two parameters, q and T,on physical quantities are studied using the linear sigma model in chiral phase transitions. The Tsallis distribution approaches the Boltzmann-Gibbs distribution as q approaches 1. The parameter T dependences of the condensate and mass for various q are shown, where T is called temperature. The critical temperature and energy density are described with digamma function, and the q dependences of these quantities and the extension of Stefan-Boltzmann limit of the energy density are shown. The following facts are clarified. The chiral symmetry restoration at q>1 occurs at low temperature, compared with the restoration at q=1.The sigma mass and pion mass reflect the restoration. The critical temperature decreases monotonically as q increases. The small deviation from the Boltzmann-Gibbs distribution results in the large deviations of physical quantities, especially the energy density. It is displayed from the energetic point of view that the small deviation from the Boltzmann-Gibbs distribution is realized for q>1. The physical quantities are affected by the Tsallis distribution even when |q-1| is small.