# Three body radiative decay $B_s\to \phi \bar K^0 \gamma$ in the PQCD   approach

**Authors:** Zhi-Qing Zhang, Hongxia Guo

arXiv: 1812.11372 · 2019-04-23

## TL;DR

This paper calculates the branching ratio and CP asymmetry for the rare decay $B_s	o \phi ar K^0 \gamma$ using the PQCD approach with two-meson distribution amplitudes, including subleading contributions.

## Contribution

It introduces the $\phi K$ pair distribution amplitudes in PQCD to simplify three-body decay calculations and provides detailed predictions for branching ratio and CP asymmetry.

## Key findings

- Branching ratio is approximately 9.26 x 10^{-8}.
- Direct CP asymmetry is about -4.1%.
- Decay spectrum peaks around 1.95 GeV in $\\phi K$ invariant mass.

## Abstract

We study the three body radiative decay $B_s\to \phi \bar K^0 \gamma$ by introducing the $\phi K$ pair distribution amplitudes (DAs) in the perturbative QCD approach. This nonperturbative inputs, the two meson DAs, is very important to simplify the calculations. Besides the dominant electromagnetic penguin operator $O_{7\gamma}$, the subleading contributions from chromomagnetic penguin operator $O_{8g}$, quark-loop corrections and annihilation type amplitudes are also considered. We find that the branching ratio for the decay $B_s\to \phi \bar K^0 \gamma$ is about $(9.26^{+1.79+3.12+0.64}_{-1.61-3.86-0.49})\times10^{-8}$, which is much smaller compared with that for the decay $B^0\to \phi K^0\gamma$. It is mainly because that the former decay induces by $b\to d\gamma$ with small CKM matrix element being proportional to $\lambda^3$. The prediction for the direct CP asymmetry is $A^{dir}_{CP}(B_s\to \phi \bar K^0 \gamma)=(-4.1^{+0.4+1.7+0.2}_{-0.6-1.2-0.1})\%$, which is well consistent with the result from the U-spin symmetry approach. we also predict the $B_s \to\phi \bar K^0\gamma$ decay spectrum, which exhibits a maximu at the $\phi K$ invariant masss around 1.95 GeV.

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/1812.11372/full.md

## References

66 references — full list in the complete paper: https://tomesphere.com/paper/1812.11372/full.md

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Source: https://tomesphere.com/paper/1812.11372