Higher-Loop Calculations of the Ultraviolet to Infrared Evolution of a Vectorial Gauge Theory in the Limit Nc ∞, Nf ∞ with Nf/Nc Fixed

Abstract

We consider an asymptotically free vectorial SU(Nc) gauge theory with Nf fermions in the fundamental representation and analyze higher-loop contributions to the evolution of the theory from the ultraviolet to the infrared in the limit where Nc ∞ and Nf ∞ with r=Nf/Nc a fixed, finite constant. We focus on the case where the n-loop beta function has an infrared zero, at =IR,n, where =α Nc. We give results on IR,n, the anomalous dimension of the fermion bilinear evaluated at IR,n, denoted γIR,n, and certain structural properties of the beta function, β. The approach to this limit is investigated, and it is shown that the leading correction terms are strongly suppressed, by the factor 1/Nc2. This provides an understanding of a type of approximate universality in calculations for moderate values of Nc and Nf, namely that αIR,nNc, γIR,n, and structural properties of the beta function are similar in theories with different values of Nc and Nf provided that they have similar values of Nf/Nc. We give results up to four loops for nonsupersymmetric theories and up to three loops for supersymmetric theories.