Interplay between SU(Nf) chiral symmetry, U(1)A axial anomaly and massless bosons

Abstract

The standard wisdom on the origin of massless bosons in the spectrum of a Quantum Field Theory (QFT) describing the interaction of gauge fields coupled to matter fields is based on two well known features: gauge symmetry, and spontaneous symmetry breaking of continuous global symmetries. However we will show in this article how the topological properties, that originate the U(1)A axial anomaly in a QFT which describes the interaction of fermion matter fields and gauge bosons, are the basis of an alternative mechanism to generate massless bosons in the chiral limit, if the non-abelian SU(Nf)A chiral symmetry is fulfilled in the vacuum. We will also test our predictions with the results of a well known two-dimensional model, the two-flavour Schwinger model, which was analyzed by Coleman long ago, and will give a reliable answer to some of the questions he asked himself on the spectrum of the model in the strong-coupling (chiral) limit. We will also analyze what are the expectations for the U(N) gauge-fermion model in two dimensions, and will discuss on the impact of our results in the chirally symmetric high temperature phase of QCD, which was present in the early universe, and is expected to be created in heavy-ion collision experiments.