Fermion Self-Energy and Chiral Symmetry Breaking from Four-Fermion and Gauge Interactions

Abstract

The exact analytic solutions of the linearized Schwinger-Dyson equation of fermion self-energy are used to obtain the effective four-fermion and gauge coupling criticality curves for dynamical chiral symmetry breaking. The results show that when the zero-momentum gauge coupling α(0) < α0(0), the critical gauge coupling in the pure gauge interaction case, the minimal critical four-fermion coupling β min is always non-zero and positive and will go up as the α(0) decreases. The use of the exact solutions also allow us to make quite definite estimations of the momentum scales where chiral symmetry breaking would happen if the values of an infrared parameter are given separately.

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