On the Extraction of the Strong Coupling from Hadronic Tau Decay

Abstract

The finite energy sum rule extraction of the strong coupling αs from hadronic τ decay data provides one of its most precise experimental determinations. As precision improves, small non-perturbative effects become increasingly relevant to both the central value and error. Here we present a new framework for this extraction employing a physically motivated model to accommodate violations of quark-hadron duality and enforcing a consistent treatment of higher-dimension operator product expansion contributions. Using 1998 OPAL data for the non-strange vector and axial-vector spectral functions, we find the nf=3 values for αs(mτ2) of 0.307(19) for fixed-order perturbation theory and 0.322(26) for contour-improved perturbation theory, corresponding to nf=5 values for αs(MZ2) of 0.1169(25) and 0.1187(32), respectively.