Hadron Spectroscopy: Light, Strange Baryons

Chandni Menapara; Ajay Kumar Rai

arXiv:2405.06417·hep-ph·May 13, 2024

Hadron Spectroscopy: Light, Strange Baryons

Chandni Menapara, Ajay Kumar Rai

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TL;DR

This paper investigates light and strange baryon resonance spectra using a hypercentral Constituent Quark Model with linear potential, including higher order corrections, and analyzes properties like Regge trajectories, magnetic moments, and decay widths.

Contribution

It introduces a non-relativistic hypercentral Constituent Quark Model with higher order corrections for baryon spectroscopy and compares results with other approaches.

Findings

01

Resonance mass spectra obtained with improved accuracy.

02

Calculated baryonic properties such as magnetic moments and decay widths.

03

Established consistency with experimental data and other models.

Abstract

The resonance mass spectra have been studied through a non-relativistic hypercentral Constituent Quark Model (hCQM) using a linear potential. Also, the effects of higher order correction terms ( $O (\frac{1}{m})$ , $O (\frac{1}{m ^{2}})$ ) have been studied for improvisation of the results. Other baryonic properties such as Regge trajectories, magnetic moment and decay widths have been considered. A detailed comparison with other approaches are discussed in the present review.

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Taxonomy

TopicsQuantum Chromodynamics and Particle Interactions · High-Energy Particle Collisions Research