A status update on the determination of MSN f=3 by the ALPHA collaboration

Abstract

The ALPHA collaboration aims to determine αs(mZ) with a total error below the percent level. A further step towards this goal can be taken by combining results from the recent simulations of 2+1-flavour QCD by the CLS initiative with a number of tools developed over the years: renormalized couplings in finite volume schemes, recursive finite size techniques, two-loop renormalized perturbation theory and the (improved) gradient flow on the lattice. We sketch the strategy, which involves both the standard SF coupling in the high energy regime and a gradient flow coupling at low energies. This implies the need for matching both schemes at an intermediate switching scale, L swi, which we choose roughly in the range 2-4 GeV. In this contribution we present a preliminary result for this matching procedure, and we then focus on our almost final results for the scale evolution of the SF coupling from L swi towards the perturbative regime, where we extract the N f = 3 -parameter, MSN f=3, in units of L swi . Connecting L swi and thus the -parameter to a hadronic scale such as FK requires 2 further ingredients: first, the connection of L swi to L max using a few steps with the step-scaling function of the gradient flow coupling, and, second, the continuum extrapolation of L max FK.