A novel strategy to prove chiral symmetry breaking in QCD-like theories

Abstract

We demonstrate that chiral symmetry breaking occurs in the confining regime of QCD-like theories with Nc colors and Nf flavors. Our proof is based on a novel strategy, called `downlifting', by which solutions of the 't Hooft anomaly matching and persistent mass conditions for a theory with Nf-1 flavors are constructed from those of a theory with Nf flavors, while Nc is fixed. By induction, chiral symmetry breaking is proven for any Nf≥ pmin in the confining regime, where pmin is the smallest prime factor of Nc. The proof can be extended to Nf <pmin under the additional assumption on the absence of phase transitions when quark masses are sent to infinity. Our results do not rely on assumptions on the spectrum of massless bound states other than the fact that they are color-singlet hadrons.

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