# Two Body Hadronic Decays $\Lambda_{b}(\frac{1}{2}^{+})\rightarrow   B^{\ast}(\frac{3}{2}^{+})+P$ in a quark model

**Authors:** Fayyazuddin

arXiv: 1704.06480 · 2017-04-24

## TL;DR

This paper analyzes specific baryonic decay processes involving $	ext{Lambda}_b$ into excited baryons and mesons using a non-relativistic quark model, predicting decay rates and asymmetry parameters.

## Contribution

It introduces a novel analysis of $	ext{Lambda}_b$ decays to $B^*$ and $P$ via baryon pole contributions, extending the theoretical framework beyond previous models.

## Key findings

- Branching ratios for specific decay channels are estimated.
- The asymmetry parameter $	ext{alpha}$ is predicted to be zero.
- The model's predictions can be tested against future experimental data.

## Abstract

The framework under which decays $\Lambda_{b}(\frac{1}{2}^{+})\rightarrow B(\frac{1}{2}^{+})+M$ are analyzed is not applicable for the decays $\Lambda_{b}(\frac{1}{2}^{+})\rightarrow B^{\ast}(\frac{3}{2} ^{+})+M$. These decays occur through a baryon pole $\Sigma^{0}_{c}$ which is generated by the W-exchange diagram in the process $b+u \xrightarrow {W} c+d$. The effective Hamiltonian which arises from the W-exchange diagram is expressed in the non relativistic limit. Since $% \Sigma^{0}_{c}$ belongs to representation $6$ of SU(3), it contributes to two sets of decays: $\Lambda_{b}\rightarrow\Delta^{0}D^{0},\Delta^{-}D^{+},% \Sigma^{*-}D_s^{+}$ and $\Lambda_{b}\rightarrow\Sigma^{\ast-}_{c}\pi^{+},%   \Sigma^{\ast 0}_{c}\pi^{0}\;, \Xi^{\ast 0}_{c}K^{0}$. The branching ratios for these decays are evaluated which can be compared with their experimental values when the data become available. Other prediction of the model is that asymmetry parameter $\alpha = 0$, since baryon pole contributes to parity conserving (p-wave) amplitude and does not contribute to parity violating (d-wave) amplitude.

## Full text

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## References

11 references — full list in the complete paper: https://tomesphere.com/paper/1704.06480/full.md

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Source: https://tomesphere.com/paper/1704.06480