CP asymmetry in the angular distribution of τ KSπτ decays

Abstract

In this work, we study the CP asymmetry in the angular distribution of τ KSπτ decays, taking into account the known CP violation in K0-K0 mixing. It is pointed out for the first time that, once the well-measured CP violation in the neutral kaon system is invoked, a non-zero CP asymmetry would appear in the angular observable of the decays considered, even within the Standard Model. By employing the reciprocal basis, which is most convenient when a KS(L) is involved in the final state, the CP-violating angular observable is derived to be two times the product of the time-dependent CP asymmetry in K π+π- and the mean value of the angular distribution in τ K0(K0)πτ(τ) decays. Compared with the Belle results measured in four different bins of the Kπ invariant mass, our predictions lie within the margins of these measurements, except for a 1.7~σ deviation for the lowest mass bin. While being below the current Belle detection sensitivity that is of O(10-3), our predictions are expected to be detectable at the Belle II experiment, where 70 times more sensitive results will be obtained with a 50~ab-1 data sample.