Perturbative contributions to α(5)(M2Z)

Abstract

We compute a theoretically driven prediction for the hadronic contribution to the electromagnetic running coupling at the Z scale using lattice QCD and state-of-the-art perturbative QCD. We obtainα(5)(M2Z)=[279.50.90.59]×10-4\,\,\,\,\,\,(Mainz \,\,\,Collaboration)α(5)(M2Z)=[278.420.220.59]×10-4\,\,\,\,\,\,\,\,( BMW \,\,\,Collaboration), where the first error is the quoted lattice uncertainty. The second is due to perturbative QCD, and is dominated by the parametric uncertainty on αs, which is based on a rather conservative error. Using instead the PDG average, we find a total error on α(5)(M2Z) of 0.4×10-4. Furthermore, with a particular emphasis on the charm quark contributions, we also update α(5)(M2Z) when low-energy cross-section data is used as an input, obtaining α(5)(M2Z) = [276.29 0.38 0.62] × 10-4. The difference between lattice QCD and cross-section-driven results reflects the known tension between both methods in the computation of the anomalous magnetic moment of the muon. Our results are expressed in a way that will allow straightforward modifications and an easy implementation in electroweak global fits.