Magnetic moments of spin--1/2 triply-heavy baryons: A study of Light-cone QCD and Quark-diquark model

TL;DR

This paper calculates the magnetic moments of spin-1/2 triply-heavy baryons using light-cone QCD sum rules and a Quark-diquark model, providing insights into their internal structure and QCD dynamics.

Contribution

It introduces a comparative study of magnetic moments using two theoretical approaches, enhancing understanding of triply-heavy baryons' properties.

Findings

Magnetic moments are consistent with existing literature.

Results support the validity of the theoretical models used.

Provides new predictions for unmeasured baryons.

Abstract

In this study, the magnetic moments of the spin-1/2 triply-heavy baryons have been calculated using both light-cone QCD sum rules and Quark-diquark model. Theoretical investigations on magnetic moments of the triply-heavy baryons, are crucial as their results can help us better understand their internal structure and the dynamics of the QCD as the theory of the strong interaction. We compare the results extracted for the magnetic moment with the existing theoretical predictions. It is seen that the obtained magnetic moment values are quite compatible with the results in the literature.