Real-time thermal field theory analyses of 2D Gross-Neveu model

Abstract

Discrete symmetry breaking and possible restoration at finite temperature T are analysed in 2D Gross-Neveu model by the real-time thermal field theory in the fermion bubble approximation. The dynamical fermion mass m is proven to be scale-independent and this fact indicates the equivalence between the fermion bubble diagram approximation and the mean field approximation used in the auxialiary scalar field approach. Reproducing of the non-zero critical temperature Tc=0.567 m(0), (m(0) is the dynamical fermion mass at T=0), shows the equivalence between the real-time and the imaginary-time thermal field theory in this problem. However, in the real-time formalism, more results including absence of scalar bound state, the equation of criticality curve of chemical potential-temperature and the (Tc/T) behavior of m2 at T< Tc can be easily obtained. The last one indicates the second-order phase transition feature of the symmetry restoration.

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