Magnetic Moments of Baryons containing all heavy quarks in Quark-Diquark Model

TL;DR

This paper calculates the masses and magnetic moments of triply heavy baryons using a quark-diquark model with a Coulomb plus power potential, providing new numerical predictions that align with existing theories.

Contribution

It introduces a numerical solution for triply heavy baryon properties using a Coulomb plus power potential within the quark-diquark framework, exploring various potential power indices.

Findings

Predicted baryon masses agree with other theoretical models.

Magnetic moments are computed for different potential parameters.

The model provides consistent results across different potential powers.

Abstract

The triply heavy flavour baryons are studied using the Quark-diquark description of the three-body system. The confinement potential for present study of triply heavy flavour baryons is assumed as coulomb plus power potential with power index $\nu$. We have solved Schrodinger equation numerically to calculate the masses of triply heavy flavour baryons. The masses and magnetic moments of triply heavy flavour baryons are computed for different power indices, $\nu$, starting from 0.4 to 1.0. The predicted masses and magnetic moments are in good agreement with other theoretical predictions.