Analysis of $\Lambda_{b}\to$ $p K^{-}$ and $p \pi^{-}$ decays in a flavor changing $Z^{\prime}$ model

TL;DR

This study calculates the branching ratios of mbda_bpK^{-} and pp decays within a flavor-changing Z' model, showing their sensitivity to Z' contributions and matching experimental data under specific coupling conditions.

Contribution

It provides a detailed analysis of mbda_b decays in a Z' model, highlighting parameter regions that align with experimental measurements, which was not previously explored.

Findings

Branching ratios are sensitive to Z' boson contributions.

Matching experimental data constrains Z' coupling parameters.

Left- and right-handed couplings influence decay rates differently.

Abstract

In this paper, we calculate the branching ratios of \Lambda_{b} \to pK^{-} and p\pi^{-} decays in the flavor changing Z^{\prime} model. We find that the branching ratios for these two decay modes are sensitive to the contributions of Z^{\prime} boson. For \Lambda_{b}\to p K^{-} decay, if the left-handed couplings are equal to the right-handed couplings, the branching ratio of this decay could match up to the currently experimental data for \xi_{s}=0.01 and -52^{\circ}<\phi^{L}_{s}<132^{\circ}, or \xi_{s}=0.004 and 0^{\circ}<\phi^{L}_{s}<84^{\circ}; if only the left-handed couplings are considered, it could match up to the experimental data for \xi_{s}=0.01 and -10^{\circ}<\phi^{L}_{s}<138^{\circ}$. And for \Lambda_{b} \to p\pi^{-} decay, if the left-handed and right-handed couplings are equal, the branching ratio of \Lambda_{b} \to p\pi^{-} decay may be consistent with the currently experimental data with \xi_{d}=0.05 and -135^{\circ}<\phi^{L}_{d}<43^{\circ}, if only the left-handed couplings are considered, it may be consistent with \xi_{d}=0.05 and -114^{\circ}<\phi^{L}_{d}<8^{\circ}.