Estimate of the branching fraction τ- η π-τ, the a0-(980), and non-standard weak interactions

Abstract

We consider the ``second-class current'' decay τ-π-ητ from several points of view. We first focus on the decay rate as expected within standard weak interaction and QCD due to isospin violation. The decay contributions divide into P- and S-wave parts. The former can be reliably estimated using the ηπ coupling inferred from the rates and Dalitz-plot distributions of η 3π decays. The somewhat larger S-wave part, which was previously computed using chiral perturbation theory, is estimated from a simple qq model. Both estimates of the S-wave part depend on whether the a0(980) scalar particle is a qq or some other (4-quark) state. Finally, we discuss genuinely new, non-V-A scalar weak interactions. The τ-π-ητ decay provides information on this question, which nicely complements that from precision β decay experiments. % In summary, we discuss the possible implications of putative values of the branching fraction B(τ-π-ητ). In the case of larger values, in particular of the S-wave part, not only will detection of the decay be more likely and more reliable, its implications will be more far-reaching and interesting.