Lattice artifacts proportional to the quark mass in the QCD running coupling

Abstract

Discretization artifacts proportional to the quark mass can limit the precision of strong-coupling determinations in lattice QCD, especially in the presence of heavy quarks. In this work, we perform a lattice perturbative analysis of such O(a m) effects in the running coupling by computing its two-loop renormalization factor Zg. Using the background field method together with clover-improved Wilson fermions and Symanzik-improved gauge actions, we determine the mass-dependent components of the relevant two-point Green's functions and obtain the improvement coefficients needed to remove O(a m) artifacts in mass-independent renormalization schemes. Our results are presented for general values of the number of colors Nc, the number of quark flavors Nf, and the clover coefficient c sw, and satisfy all symmetry and consistency constraints. Numerical values are provided for widely used instances of the above gauge actions, allowing improved control of mass-related cutoff effects in high-precision determinations of the strong coupling constant from lattice QCD. Full derivations and extended numerical results can be found in Ref. [arXiv:2503.00463].