Dynamical Up-quark Mass Generation in QCD-like theories

Abstract

We calculate the dynamically generated up quark mass in some QCD-like theories with F=3 light flavors, obtained from supersymmetric QCD perturbed via anomaly mediated supersymmetry breaking. We match the low-energy effective theory to the traditional chiral Lagrangian of QCD and determine the coefficients to next-to-leading order in chiral perturbation theory, while also varying the number of colors N. We find that the dynamically generated up quark mass vanishes in the large N limit, and is small for F<N, however for F=N there is a sizeable O(1) contribution. While our results are reliable only for small supersymmetry breaking, we observe that extrapolating the F=N result to large supersymmetry breaking would lead to a dynamical up quark mass that is large enough to account for its entire physical mass.