A resolution of the inclusive flavor-breaking sum rule τ Vus puzzle

Abstract

A combination of continuum and lattice methods is used to investigate systematic issues in the finite-energy-sum-rule determination of Vus based on flavor-breaking combinations of hadronic τ decay data. Results for Vus obtained using assumptions for D>4 OPE contributions employed in previous conventional implementations of this approach are shown to display significant unphysical dependences on the choice of sum rule weight, w, and upper limit, s0, of the relevant experimental spectral integrals. Continuum and lattice results suggest the necessity of a new implementation of the flavor-breaking sum rule approach, in which not only Vus, but also D>4 effective condensates are fit to data. Lattice results also provide a means of quantifying the truncation error for the slowly converging D=2 OPE series. The new implementation is shown to produce Vus results free of unphysical s0- and w-dependences and typically 0.0020 higher than the (unstable) results found using the conventional implementation. With preliminary new experimental results for the Kπ branching fraction, the resulting Vus is in excellent agreement with that obtained from K 3, and compatible within errors with expectations from three-family unitarity.