Semileptonic $B_{s}\to K_0^*(1430)$ transitions with the light-cone sum rules

TL;DR

This paper calculates the transition form factors for semileptonic B_s to K_0^*(1430) decays using light-cone sum rules, exploring different models for distribution amplitudes and predicting decay rates and polarization asymmetries.

Contribution

It introduces a detailed analysis of form factors for B_s to K_0^*(1430) transitions using light-cone sum rules with various distribution amplitude parametrizations, providing new predictions for decay observables.

Findings

Calculated form factors for B_s to K_0^*(1430) decays.

Predicted branching fractions for semileptonic decays.

Estimated lepton polarization asymmetries.

Abstract

In the $\rm SU(3)_F$ symmetry limit, using two- and three-particle distribution amplitudes of $B^{\pm}$-meson for $B_s$, the transition form factors of semileptonic $B_{s}\to K_{0}^*(1430)$ decays are calculated in the framework of the light-cone sum rules. The two-particle distribution amplitudes, $\varphi_{_{+}}(\omega)$ and $\varphi_{_{-}}(\omega)$ have the most important contribution in estimation of the form factors $f_{+}(q^2)$, $f_{-}(q^2)$ and $f_{T}(q^2)$. The knowledge of the behavior of $\varphi_{_+}(\omega)$ is still rather limited. Therefore, we consider three different parametrizations for the shapes of $\varphi_{_+}(\omega)$ that are derived from the phenomenological models. Using the form factors $f_{+}$, $f_{-}$ and $f_{T}$, the semileptonic $B_s \to K_0^*(1430) l \bar{\nu_{l}}$ and $B_s \to K_0^*(1430) l \bar{l}/\nu \bar{\nu}$, $l=e, \mu, \tau$ decays are analyzed. The branching fractions for the aforementioned decays, in addition the longitudinal lepton polarization asymmetries are calculated. A comparison between our results with predictions of other approaches is provided.