Renormalization group improved pQCD prediction for (1S) leptonic decay

Abstract

The complete next-to-next-to-next-to-leading order short-distance and bound-state QCD corrections to (1S) leptonic decay rate ((1S) +-) has been finished by Beneke et al. Beneke:2014qea. Based on those improvements, we present a renormalization group (RG) improved pQCD prediction for ((1S) +-) by applying the principle of maximum conformality (PMC). The PMC is based on RG-invariance and is designed to solve the pQCD renormalization scheme and scale ambiguities. After applying the PMC, all known-type of β-terms at all orders, which are controlled by the RG-equation, are resummed to determine optimal renormalization scale for its strong running coupling at each order. We then achieve a more convergent pQCD series, a scheme- independent and more accurate pQCD prediction for (1S) leptonic decay, i.e. (1S) e+ e-| PMC = 1.270+0.137-0.187 keV, where the uncertainty is the squared average of the mentioned pQCD errors. This RG-improved pQCD prediction agrees with the experimental measurement within errors.