Semileptonic bc to cc Baryon Decay and Heavy Quark Spin Symmetry

TL;DR

This paper analyzes semileptonic decays of bc baryons to cc baryons using heavy quark spin symmetry, simplifying the description to a single form factor and connecting these decays to related meson processes.

Contribution

It introduces a unified approach to describe bc to cc baryon decays with heavy quark spin symmetry, simplifying previous complex form factor calculations.

Findings

All decays can be described by a single form factor.

Results align with previous findings by White and Savage.

Applicable to bb to bc baryon decays.

Abstract

We study the semileptonic decays of the lowest-lying bc baryons to the lowest-lying cc baryons (Xi_{bc}^{(\prime*)}--> Xi_{cc}^{(*)} and Omega_{bc}^{(\prime*)}--> Omega_{cc}^{(*)}), in the limit m_b, m_c >> Lambda_{QCD} and close to the zero recoil point. The separate heavy quark spin symmetries make it possible to describe all these decays using a single form factor. We recover results derived previously by White and Savage in a manner which we think is more straightforward and parallels the method applied later to study Bc semileptonic decays. We further discuss the resemblance between the bc baryon decays and those of Bc mesons to eta_c and J/\psi mesons and comment on the relation between the slopes of the single functions describing each set of decays. Our results can straightforwardly be applied to the decays of bb baryons to bc baryons.