Larmor precession of the octet baryons in view of the general QCD parametrization

TL;DR

This paper uses general QCD parametrization to analyze Larmor precession of octet baryons in magnetic fields, linking effective magnetic moments to measurable dynamical parameters.

Contribution

It demonstrates that parameters in the effective magnetic dipole moment have a direct dynamical interpretation and are measurable through the process.

Findings

Parameters in the effective magnetic dipole moment are dynamically meaningful.

Larmor precession behavior is derived from the general QCD framework.

The study connects theoretical parameters with experimental observables.

Abstract

We apply general QCD parametrization to describe an octet baryon at rest in a static and uniform magnetic field, in order to demonstrate a dynamical implementation of the hadron model. The derived evolution has the asymptote of Larmor precession, governed by an effective magnetic dipole moment coupling. The parameters appear in the effective magnetic dipole moment has been studied in the original works in kinematic settings. Here we show that the parameters have actual dynamical meaning, and are indeed measured by the process.