Calculation of cSW at one-loop order for Brillouin fermions

Abstract

The Brillouin action is a Wilson-like lattice fermion action with a 81-point stencil, which was found to ameliorate the Wilson action in many respects. The Sheikholeslami-Wohlert coefficient cSW of the clover improvement term has a perturbative expansion cSW=cSW(0)+g02cSW(1)+O(g04). At tree-level cSW(0)=r holds for Wilson and Brillouin fermions alike. We present the Feynman rules for the Brillouin action in lattice perturbation theory, and employ them to calculate the one-loop coefficient cSW(1) with plaquette or L\"uscher-Weisz gluons. Numerically its value is found to be about half that of the Wilson action.