UL(N)× UR(N)-invariant four-fermion interactions and Nambu-Goldstone mechanism at finite temperature

Abstract

In a chiral UL(N)× UR(N) fermion model of NJL-form, we prove that, if all the fermions are assumed to have equal masses and equal chemical potentials, then at the finite temperature T below the symmetry restoration temperature Tc, there will be N2 massive scalar composite particles and N2 massless pseudoscalar composite particles (Nambu-Goldstone bosons). This shows that the Goldstone Theorem at finite temperature for spontaneous symmetry breaking UL(N)× UR(N) UL+R(N) is consistent with the real-time formalism of thermal field theory in this model.

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