| Abstract: | We consider a model of electrodynamics with two types of interaction, the vector ((ebar psi (gamma ^mu A_mu )psi )) and axial vector ((e_A bar psi (gamma ^mu gamma ^5 B_mu )psi )) interactions, i.e., with two types of vector gauge fields, which corresponds to the local nature of the complete massless-fermion symmetry group U(1) ? U A (1). We present a phenomenological model with spontaneous symmetry breaking through which the fermion and the axial vector field Bμ acquire masses. Based on an approximate solution of the Dyson equation for the fermion mass operator, we demonstrate the phenomenon of dynamical chiral symmetry breaking when the field Bμ has mass. We show the possibility of eliminating the axial anomalies in the model under consideration when introducing other types of fermions (quarks) within the standard-model fermion generations. We consider the polarization operator for the field Bμ and the procedure for removing divergences when calculating it. We demonstrate the emergence of a mass pole in the propagator of the particles that correspond to the field B03BC when chiral symmetry is broken and consider the problems of regularizing closed fermion loops with axial vector vertices in connection with chiral symmetry breaking. |
