Determination of alphas from the QCD static energy

Abstract

We compare lattice data for the short-distance part of the static energy in 2+1 flavor quantum chromodynamics (QCD) with perturbative calculations, up to next-to-next-to-next-to leading-logarithmic accuracy. We show that perturbation theory describes very well the lattice data at short distances, and exploit this fact to obtain a determination of the product of the lattice scale r0 with the QCD scale LambdaMS. With the input of the value of r0, this provides a determination of the strong coupling alphas at the typical distance scale of the lattice data. We obtain alphas(1.5 GeV)=0.3260.019, which provides a novel determination of alphas at low energy and with three-loop accuracy (including resummation of the leading ultrasoft logarithms). When this value is evolved to the Z-mass scale MZ, it corresponds to alphas(MZ)=0.1156+0.0021-0.0022.