$\Lambda_b \to \Lambda^{(\ast)}\nu\bar{\nu}$ decays and the recent Belle-II $B^+\to K^+\nu\bar{\nu}$ data

TL;DR

This paper investigates rare baryonic decays of Lambda_b in light of recent Belle-II anomalies in B+ to K+ neutrino decays, exploring potential new physics effects beyond the Standard Model.

Contribution

It provides the first analysis of Lambda_b to Lambda(*) neutrino decays considering new physics scenarios with right-handed neutrinos, based on recent experimental data.

Findings

Differential branching ratios calculated for Lambda_b decays.

Implications of Belle-II B+ to K+ neutrino data analyzed.

Potential signals of new physics in baryonic decay channels.

Abstract

The Belle-II experiment has recently reported the first measurement of $B^+ \to K^+ \nu\bar{\nu}$ decay which exceeds the Standard Model prediction by approximately 2.7$\sigma$. The deviation may indicate the presence of new physics beyond the Standard Model in the $b\to s\nu\bar{\nu}$ sector. Under this assumption, we study the hadronic $\Lambda_b \to \Lambda(\to p\pi)\nu\bar{\nu}$ and $\Lambda_b \to \Lambda^\ast(\to N\!\bar{K})\nu\bar{\nu}$ decays within both the Standard Model and beyond. We work in a low energy effective field theory framework with additional light right-handed neutrinos. We calculate the differential branching ratios of these decay modes and explore the implications of the Belle-II results through various observables.