Singly Cabibbo-suppressed hadronic weak decays of the - hyperon

Abstract

We study the two-body hadronic weak decays of the - hyperon with strangeness S=-3, including three singly Cabibbo-suppressed decay modes: 0 π-, -π0 and K-. The decay amplitudes at the quark level, arising from s ud u transitions (direct pion emission and color-suppressed processes) and su ud transitions (pole terms), are calculated in the framework of the non-relativistic constituent quark model.The theoretical results show that the 0 π- channel is dominated by the color-allowed direct pion emission process, while the K- channel is well described by one type of pole contribution mediated through intermediate resonances (12S1/2+ and 12P1/2- states). However, the contribution from tree-level mechanisms alone to the branching ratio of - - π0 is small due to its color-suppressed nature. The discrepancy is resolved by including final state interactions through rescattering processes via intermediate states 0π- and K-. This work demonstrates that a unified description of - hadronic weak decays necessitates the interplay of quark-level weak vertices, baryon pole structures, and long-distance final state rescattering dynamics. With these mechanisms, the obtained branching ratios are in agreement with the high-precision experimental data from the BESIII. Furthermore, these above decays are found to be dominated by the parity-conserving P-wave transitions, thus the asymmetry parameters are almost zero.