Pion β decay and τππτ beyond leading logarithms

Abstract

The consistent matching of short-distance contributions and hadronic matrix elements is crucial for precise predictions of weak processes involving hadrons. In this Letter, we address this point for charged-current processes involving two pions -- pion β decay ππ0 ee and hadronic τ decays τππ0τ -- whose decay rates depend on the so-called γ W box correction. Using recent results from lattice QCD, we show how to formulate the matching beyond leading-logarithmic accuracy, in particular, how to cancel the dependence on the scheme choice for evanescent operators. As main results, we obtain a prediction for the decay rate of pion β decay with theory uncertainties improved by a factor of three, which renders theory uncertainties negligible for future determinations of Vud even beyond the reach of the PIONEER experiment, and an evaluation of isospin-breaking corrections to τππτ with negligible uncertainty from the short-distance matching, as necessary for a future τ-based determination of the hadronic-vacuum-polarization contribution to the anomalous magnetic moment of the muon.