The three-loop beta-function of SU(N) lattice gauge theories with overlap fermions

Abstract

We briefly report our calculation of the 2-loop coefficient of the coupling constant renormalization function Zg in lattice perturbation theory. The quantity under study is defined through g0 = Zg g, where g0 (g) is the bare (renormalized) coupling constant. The 2-loop expression for Zg can be directly related to the 3-loop bare beta-function betaL(g0). Our calculation is performed using overlap fermions and Wilson gluons, and the background field technique has been chosen for convenience. Our results depend explicitly on the number of fermion flavors (Nf) and colors (N). Since the dependence of Zg on the overlap parameter rho cannot be extracted analytically, we tabulate our results for different values of rho in the allowed range (0<rho<2), focusing on values which are being used most frequently in simulations. Plots of the 1- and 2-loop results for Zg versus rho exhibit a nontrivial dependence on the overlap parameter. A longer write-up of this work may be found in 0709.4368.