A nonperturbative determination of the O(a) improvement coefficient cA and the scaling of fpi and mMSbar

Abstract

We report on an investigation of the LANL method for determining the O(a) improvement coefficient cA nonperturbatively. We find we are able to extract reliable estimates for the coefficient using this method. However, our study of systematic errors shows that for very accurate determinations of cA, the smearing function must be tuned and the volume fixed to keep the O(a) ambiguity in cA fixed as beta varies. Consistency was found with previous results from the LANL group and (within fairly large errors) 1-loop perturbation theory; cA does not change significantly over the range beta=5.93-6.2. The big difference between our results and those of the ALPHA collaboration, around beta=6.0, show that the O(a) differences in cA between the different methods can be large. We find that the lattice spacing dependence of fpi and the renormalised quark mass is much smaller using our values of the coefficient compared to those of the ALPHA collaboration.