K μ+ μ- as a clean probe of short-distance physics

Abstract

The Kμ+μ- decay is often considered to be uninformative of fundamental theory parameters since the decay is polluted by long-distance hadronic effects. We demonstrate that, using very mild assumptions and utilizing time-dependent interference effects, B(KSμ+μ-)=0 can be experimentally determined without the need to separate the =0 and =1 final states. This quantity is very clean theoretically and can be used to test the Standard Model. In particular, it can be used to extract the CKM matrix element combination |VtsVtd(β+βs)|≈ |A2 λ5 η| with hadronic uncertainties below 1\%.