Functional renormalization group study of a four-fermion model with CP violation

Abstract

We perform a functional renormalization group analysis of a four-fermion model with CP and P violation to explore the nonperturbative infrared dynamics of quantum chromodynamics (QCD) within the Wilsonian renormalization group framework, particularly in the context of spontaneous CP-violation models. Our analysis of the fixed-point structure reveals that, in the large-Nc limit, the CP-violating θ parameter is dynamically induced and approaches π · (Nf/2) (where Nf is the number of flavors) as the system enters the chirally broken phase. This behavior arises due to criticality and the large anomalous dimensions of the U(1)A-violating four-fermion couplings. Furthermore, this trend appears to persist beyond the leading large-Nc approximation, provided that the infrared dynamics of QCD remains dominated by the scalar condensate of the quark bilinear, as expected. Notably, our findings highlight that CP-violating four-fermion interactions, which are perturbatively irrelevant, can become relevant in the chirally broken phase through nonperturbative effects, with potential implications for spontaneous CP-violation scenarios.

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