Chiral phase transitions in the linear sigma model in the Tsallis nonextensive statistics

Abstract

We studied chiral phase transitions in the Tsallis nonextensive statistics which has two parameters, the temperature T and entropic parameter q. The linear sigma model was used in this study. The critical temperature, condensate, masses, and energy density were calculated under the massless free particle approximation. The critical temperature decreases as q increases. The condensate at q>1 is smaller than that at q=1. The sigma mass at q>1 is heavier than the mass at q=1 at high temperature, while the sigma mass at q>1 is lighter than the mass at q=1 at low temperature. The pion mass at q>1 is heavier than the mass at q=1. The energy density increases remarkably as q increases. The q dependence in the case of the q-expectation value is weaker than that in the case of the conventional expectation value with a Tsallis distribution. The parameter q should be smaller than 4/3 from energetic point of view. The validity of the Tsallis statistics can be determined by the difference in q of the restriction for 5/4 < q < 4/3 when the interaction is weak, because the parameter q is smaller than 5/4 in the case of the conventional expectation value with a Tsallis distribution.