Chiral restoration at finite temperature with meson loop corrections

Abstract

We investigate chiral-restoration patterns of QCD for Nc=3 and Nf=2 at finite temperature (T) and zero quark-chemical potential beyond the chiral limit, indicating the explicit chiral-symmetry breaking. To this end, we employ the instanton-vacuum configuration for the flavor SU(2) sector and the Harrington-Shepard caloron for modifying relevant instanton parameters as functions of T. The meson-loop corrections (MLC), which correspond to 1/Nc corrections, are also taken into account to reproduce appropriate mq dependences of chiral order parameters. We compute chiral condensate as a function of T and/or mq. From the numerical calculations, we observe that MLC play an important role to have a correct universality-class behavior of chiral-restoration patterns in this framework, depending on mq: Second-order phase transition in the chiral limit, mq=0 and crossover for mq>0. Without MLC, all the restoration patterns are crossover, due to simple saddle-point approximations. It turns out that Tc=159 MeV in the chiral limit and Tc=(177,186,196) MeV for mq=(5,10,15) MeV, using the phenomenological choices for the instanton parameters at T=0.