Investigation of $\Omega_{ccb}$ and $\Omega_{cbb}$ baryons in Regge phenomenology

TL;DR

This paper uses Regge phenomenology to predict the masses, magnetic moments, and decay widths of the triply heavy baryons $\\Omega_{ccb}$ and $\\\Omega_{cbb}$, providing theoretical guidance for future experiments.

Contribution

It introduces a method to estimate masses and properties of triply heavy baryons using linear Regge trajectories, extending previous models to these specific baryons.

Findings

Predicted ground state masses for $\\Omega_{ccb}$ and $\\Omega_{cbb}$.

Estimated excited state masses and Regge parameters.

Calculated magnetic moments and radiative decay widths.

Abstract

Triply heavy baryons with quark content $ccb$ and $cbb$ are investigated within the framework of Regge phenomenology. With the assumption of linear Regge trajectories, we have extracted the relations between Regge parameters and baryon masses. Using these relations, we compute the ground state masses of $\Omega_{ccb}$ and $\Omega_{cbb}$ baryons. Further, the Regge slopes and intercepts are estimated for these baryons to obtain the excited state masses in the $(J,M^{2})$ and $(n,M^{2})$ planes. \textbf{Also, using the obtained results we calculate the other properties like magnetic moment and radiative decay width of these triply heavy baryons.} We compare our evaluated results with those obtained by the other theoretical approaches, and our results show a general agreement with them. The present study and our predictions will provide significant clues for future experimental research of these unseen triply heavy baryons.