A resolution of the inclusive flavor-breaking τ |Vus| puzzle

Abstract

We revisit the puzzle of |Vus| values obtained from the conventional implementation of hadronic-τ-decay-based flavor-breaking finite-energy sum rules lying >3 σ below the expectations of three-family unitarity. Significant unphysical dependences of |Vus| on the choice of weight, w, and upper limit, s0, of the experimental spectral integrals entering the analysis are confirmed, and a breakdown of assumptions made in estimating higher dimension, D>4, OPE contributions is identified as the main source of these problems. A combination of continuum and lattice results is shown to suggest 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 are also used to clarify how to reliably treat the slowly converging D=2 OPE series. The new sum rule implementation is shown to cure the problems of the unphysical w- and s0-dependence of |Vus| and to produce results 0.0020 higher than those of the conventional implementation. With B-factory input, and using, in addition, dispersively constrained results for the Kπ branching fractions, we find Vus =0.2231(27)exp(4)th, in excellent agreement with the result from K 3, and compatible within errors with the expectations of three-family unitarity, thus resolving the long-standing inclusive τ |Vus| puzzle.