Strong decay modes $\bar{K}\Xi$ and $\bar{K}\Xi\pi$ of the   $\Omega(2012)$ in the $\bar{K}\Xi(1530)$ and $\eta\Omega$ molecular scenario

Yin Huang; Ming-Zhu Liu; Jun-Xu Lu; Ju-Jun Xie; Li-Sheng Geng

arXiv:1807.06485·hep-ph·October 24, 2018

Strong decay modes $\bar{K}\Xi$ and $\bar{K}\Xi\pi$ of the $\Omega(2012)$ in the $\bar{K}\Xi(1530)$ and $\eta\Omega$ molecular scenario

Yin Huang, Ming-Zhu Liu, Jun-Xu Lu, Ju-Jun Xie, Li-Sheng Geng

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TL;DR

This paper investigates the decay modes of the $ ext{Omega}(2012)$ resonance, proposing it as a molecular state from coupled channel interactions, and calculates its decay widths aligning with experimental observations.

Contribution

It introduces a molecular scenario for $ ext{Omega}(2012)$ based on coupled channel dynamics and computes decay widths consistent with experimental data.

Findings

01

Total decay width matches experimental data.

02

Decay modes $ar{K} ext{Xi}$ and $ar{K} ext{Xi} ext{pi}$ are significant.

03

Comparison with other models highlights differences.

Abstract

We study the $\overset{ˉ}{K} Ξ$ decay mode of the newly observed $Ω (2012)$ assuming that the $Ω (2012)$ is a dynamically generated state with spin-parity $J^{P} = 3/ 2^{-}$ from the coupled channel $S$ -wave interactions of $\overset{ˉ}{K} Ξ (1530)$ and $η Ω$ . In addition we also calculate its $K π Ξ$ three-body decay mode. It is shown that the so-obtained total decay width is in fair agreement with the experimental data. We compare our results with those of other recent studies and highlight differences among them.

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