# Nonleptonic charmless decays of $B_c\to TP, TV$ in the perturbative QCD   approach

**Authors:** Xin Liu, Run-Hui Li, Zhi-Tian Zou, and Zhen-Jun Xiao

arXiv: 1703.05982 · 2017-07-26

## TL;DR

This paper investigates charmless nonleptonic $B_c$ decays involving tensor mesons using perturbative QCD, predicting decay rates and polarization fractions, and highlighting modes detectable at the LHC.

## Contribution

First calculation of $B_c 	o TP, TV$ decays in pQCD, providing predictions for branching ratios and polarization fractions for the first time.

## Key findings

- Several decay modes have large branching ratios around 10^{-6}.
- Most $B_c 	o TV$ decays are dominated by longitudinal polarization.
- Predicted polarization fractions range from 78% to 98%.

## Abstract

Two-body charmless hadronic $B_c$ decays involving a light $1^3\!P_2$-tensor($T$) meson are investigated for the first time within the framework of perturbative QCD(pQCD) at leading order, in which the other meson is the lightest pseudoscalar($P$) or vector($V$) state. The concerned processes can only occur through the pure weak annihilation topology in the standard model. We predict the CP-averaged branching ratios and polarization fractions of those considered decays in Cabibbo-Kobayashi-Maskawa(CKM) favored and suppressed modes. Phenomenologically, several modes$-$such as the $B_c \to K_2^*(1430) K$ and the CKM-favored $B_c \to TV-$have large decay rates of $10^{-6}$, which are expected to be detected at Large Hadron Collider experiments in the near future. Moreover, all of the $B_c \to TV$ modes are governed by the longitudinal amplitudes in the pQCD calculations and the corresponding fractions vary around $78\%$-$98\%$. A confirmation of these results could prove the reliability of the pQCD approach used here and further shed some light on the annihilation decay mechanism.

## Full text

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## Figures

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## References

50 references — full list in the complete paper: https://tomesphere.com/paper/1703.05982/full.md

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Source: https://tomesphere.com/paper/1703.05982