Ground and Excited state masses of $\Omega_c^0$, $\Omega_{cc}^+$ and $\Omega_{ccc}^{++}$ baryons

TL;DR

This paper calculates the masses of ground and excited states of specific baryons using Regge phenomenology, assigning possible spin-parity values and providing predictions to aid future experimental identification.

Contribution

It introduces a method to assign spin-parity to baryon states and predicts higher excited state masses within the Regge framework, aligning with experimental data.

Findings

Calculated masses agree with experimental data where available.

Predicted masses of higher excited states for future experiments.

Provided spin-parity assignments consistent with observed states.

Abstract

The masses of ground and excited states of $\Omega_c^0$, $\Omega_{cc}^+$ and $\Omega_{ccc}^{++}$ baryons are calculated within the framework of Regge phenomenology. Here our attempt is to assign a possible spin-parity to these obtained masses. Our calculated masses in $(J,M^2)$ plane with both natural ($J^{P}$ = $1/2^{+}$, $3/2^{-}$, $5/2^{+}$, ....) and unnatural ($J^{P}$ = $3/2^{+}$, $5/2^{-}$, $7/2^{+}$, ....) spin-parities are in agreement with the experimental observations where available and reasonably close to other theoretical predictions. Further we fix the slope and intercept of each Regge line in $(n, M^2)$ plane and estimate the masses of higher excited states of these baryons. The obtained mass relations and the mass value predictions could provide an useful information in future experimental searches and the spin-parity assignment of these states.