Neutron Anomalous Magnetic Moment in Dense Magnetized Systems

Zeinab Rezaei

arXiv:1801.05277·nucl-th·March 8, 2018

Neutron Anomalous Magnetic Moment in Dense Magnetized Systems

Zeinab Rezaei

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TL;DR

This paper investigates how the neutron's anomalous magnetic moment varies with density and magnetic field in dense magnetized systems using the LOCV method and AV18 potential.

Contribution

It introduces a model to calculate the medium dependency of the neutron magnetic moment considering density and magnetic field effects.

Findings

01

Neutron anomalous magnetic moment increases with density.

02

It decreases as magnetic field strength increases.

03

Energy and equation of state are also analyzed.

Abstract

In this work, we calculate the neutron anomalous magnetic moment supposing that this value can depend on the density and magnetic field of system. We employ the lowest order constraint variation (LOCV) method and $A V_{18}$ nuclear potential to calculate the medium dependency of the neutron anomalous magnetic moment. It is confirmed that the neutron anomalous magnetic moment increases by increasing the density, while it decreases as the magnetic field grows. The energy and equation of state for the system have also been investigated.

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