Electromagnetic transition properties of $\Delta \rightarrow N\gamma$ in a hypercentral scheme

TL;DR

This paper investigates the electromagnetic transition from Delta to nucleon baryons using a hypercentral quark model, achieving results consistent with experimental data and other theories.

Contribution

It introduces a hypercentral quark model with a Coulomb plus linear potential to study baryon transitions, providing accurate predictions of decay widths.

Findings

Transition magnetic moment aligns with other theoretical models.

Radiative decay width matches experimental data closely.

Model successfully describes electromagnetic properties of baryons.

Abstract

The electromagnetic transition properties of the decuplet to octet baryon ($\Delta \rightarrow N\gamma$) is studied within the frame work of a hypercentral quark model. The confinement potential is assumed as hypercentral coloumb plus linear potential. The transition magnetic moment and transition amplitude $f_{M_1}$ for the $\Delta \rightarrow N\gamma$ are in agreement with other theoretical predictions. The present result of the radiative decay width is found to be in excellent agreement with the experimental values reported by the particle data group over other theoretical model predictions.