τ- π- η τ decay induced by QED one-loop effects

Abstract

The τ- π-ητ decay is forbidden in the Standard Model in the limit of exact G-parity, it becomes a rare decay due to isospin symmetry breaking and it is very sensitive to the effects of effective scalar interactions. Since the parameters driving isospin breaking, (md-mu)/(ms-m) and α, are of the same order, one may expect their G-parity breaking effects in this decay can be of similar magnitudes. In this work, we evaluate the effects of isospin-breaking amplitudes originated from a virtual photon at one-loop in a resonance dominance model to describe photon-hadron interactions. We find that these effects can shift the leading SM predictions based on the u-d quark mass difference by roughly 12\%, and should be taken into consideration in a precision comparison of theory and experiment in order to draw meaningful conclusions on New Physics. The effects in the rate of the analogous τ- π-η'τ decay can be larger ( 78\%), under the approximations assumed in this model.