Hadronic tau decays at higher orders in QCD

Abstract

We investigate higher-order perturbative corrections to hadronic τ decays by applying nonlinear sequence-transformation techniques to the QCD correction δ(0). In particular, we employ the Shanks transformation and several of its generalisations constructed through Wynn's -algorithm, which are known to accelerate the convergence of slowly convergent or divergent series. These methods are used to extract higher-order information from the fixed-order perturbative expansion of δ(0). Within this framework, we estimate the perturbative coefficients c5,1-c12,1. In particular, we obtain c5,1=298 15, c6,1=3431 256, and c7,1=2.29 0.29× 104, where the quoted uncertainties reflect the spread among the different sequence transformations employed. Moreover, we predict the QCD correction δ(0) FOPT=0.2119 0.0040 0.0065αs . Our analysis demonstrates that non-linear sequence transformations, such as the Shanks-type, provide an efficient and systematic tool for probing higher-order perturbative effects in hadronic τ decays in the absence of explicit multi-loop calculations.