A unified approach for the hadronic weak decays of and Nπ

Abstract

We provide a unified approach for the two-body hadronic weak decays of hyperons with S=-1, i.e. and , in the framework of the non-relativistic constitute quark model (NRCQM). A combined analysis shows that the branching ratios and asymmetry parameters of the decay channels pπ- and Nπ can be well described in the same framework with the direct pion emission, color suppressed internal W emission, and pole terms included. However, the channel nπ0 indicates significant deviations from the experimental data based on these mentioned transition mechanism. We demonstrate that the final state interactions (FSIs) via the coupled-channel rescatterings play a crucial role in nπ0. Namely, the dominant decay channel of pπ- can contribute to nπ0 via the pπ- nπ0 rescatterings. This is a leading correction effect for nπ0 at the one-loop level. We find that such FSIs only become the leading effects in nπ0, but contribute as subleading contributions in other channels. We also demonstrate that the pole terms are indispensable in these hyperon decays. In particular, for - nπ- and + nπ+, it shows that (1405) as the intermediate state in the pole term amplitude is necessary for reproducing the experimental data. We also find that a dynamic selection rule forbids the radial excitation state N(1710) of the quark model multiplet |70, 28,2,0+,1/2+ from contribution. To some extent, the hyperon hadronic weak decays serve as a special probe for the underlying transition mechanisms and can provide some constraints on the intermediate JP=1/2 baryon resonances.

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