The Rare Decays K+π+\ and KLμ+μ-\ Beyond Leading Logarithms
Abstract
We analyze the branching ratio for the FCNC mode K+π+\ in the standard model with QCD effects taken into account consistently to next-to-leading order. This involves a two-loop renormalization group analysis for the charm contribution, presented in this paper, and the calculation of O(αs) corrections to all orders in mt/MW for the top-quark case that we have described elsewhere. The inclusion of next-to-leading corrections reduces considerably the theoretical uncertainty due to the choice of the renormalization scales, inherent in any calculation to finite order in perturbation theory. For K+π+\ this point has not been discussed previously. In particular, the related uncertainty in the determination of |Vtd| from B(K+π+) is reduced from 30\% to 7\% for typical values of the parameters. Simultaneously also the dependence of B(K+π+) on the choice of mc is considerably reduced. We also give the next-to-leading order expression for the short-distance part of KLμ+μ-. Impacts of our calculations on the determination of the unitarity triangle are presented.
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