# Quasi-two-body decays $B_{(s)} \to P D_0^*(2400) \to P D \pi$ in the   perturbative QCD approach

**Authors:** Bo-Yan Cui, Ying-Ying Fan, Fu-Hu Liu, Wen-Fei Wang

arXiv: 1906.09387 · 2019-07-19

## TL;DR

This paper calculates branching ratios for specific B meson decays involving D_0^*(2400) resonances using perturbative QCD, providing predictions that can be tested in future experiments.

## Contribution

It presents the first detailed perturbative QCD analysis of quasi-two-body B decays involving D_0^*(2400), including predictions for branching ratios and their ratios, considering CKM suppression effects.

## Key findings

- Branching ratios range from 10^{-9} to 10^{-4}.
- Predicted ratios agree with flavor-SU(3) symmetry expectations.
- Results are consistent with current theoretical frameworks and can be tested experimentally.

## Abstract

We study the quasi-two-body decays $B\to P D^{\ast}_0(2400) \to P D\pi $ with $P=(\pi, K, \eta, \eta^{\prime})$ in the perturbative QCD factorization approach. The predicted branching fractions for the considered decays are in the range of $10^{-9}$-$10^{-4}$. The strong Cabibbo-Kobayashi-Maskawa (CKM) suppression factor $R_{CKM}\approx \lambda^4 (\bar{\rho}^2 + \bar{\eta}^2) \approx 3\times 10^{-4}$ results in the great difference of the branching ratios for the decays with $D_0^*$ and $\bar{D}_0^*$ as the intermediate states. The ratio $R_{\bar{D}_0^{*0}}$ between the decays $B^0 \to \bar{D}_0^{*0} K^0\to D^-\pi^+K^0$ and $B^0 \to \bar{D}_0^{*0}\pi^0 \to D^-\pi^+\pi^0$ is about $0.091^{+0.003}_{-0.005}$, consistent with the flavour-$SU$(3) symmetry result. The ratio for the branching fractions is found to be $1.10^{+0.05}_{-0.02}$ between $\mathcal{B}(B_s^0\to D_0^{*+}K^-\to D^0\pi^+K^-)$ and $\mathcal{B}(B^0\to D_0^{*+} \pi^-\to D^0\pi^+ \pi^-)$ and to be $1.03^{+0.06}_{-0.07}$ between $\mathcal{B}(B_s^0\to\bar{D}_0^{*0} \bar{K}^0\to D^-\pi^+ \bar{K}^0)$ and $2\mathcal{B}(B^0\to \bar{D}_0^{*0}\pi^0\to D^-\pi^+\pi^0)$. The predictions in this work can be tested by the future experiments.

## Full text

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## Figures

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## References

70 references — full list in the complete paper: https://tomesphere.com/paper/1906.09387/full.md

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Source: https://tomesphere.com/paper/1906.09387