On the Finite Temperature Effective Potential in Scalar QED with N Flavors

Abstract

The effective potential of scalar quantum electrodynamics with N flavors of complex scalar fields is studied, by performing a self consistent 1/N expansion up to next to leading order in 1/N. Starting from the broken phase at zero temperature, the theory exhibits a phase transition to the symmetric phase at some finite temperature Tc. We work in general covariant gauges and demonstrate the gauge invariance of both, the critical temperature Tc and the minimization condition at any finite temperature T. Furthermore, the only minimum of the potential is at zero scalar vacuum expectation value for any temperature T ≥ Tc and varies continuously to nonzero values for temperatures below Tc, implying the existence of a second order phase transition.