Magnetic susceptibility and Landau diamagnetism of a quantum collisional Plasmas with arbitrary degree of degeneration of electronic gas

TL;DR

This paper provides a kinetic framework to analyze magnetic susceptibility and Landau diamagnetism in quantum collisional plasmas across all levels of electronic gas degeneration, utilizing a correct expression for electric conductivity.

Contribution

It introduces a comprehensive kinetic description for magnetic properties of quantum collisional plasmas with arbitrary electronic degeneration, incorporating a correct conductivity expression.

Findings

Derived expressions for magnetic susceptibility and Landau diamagnetism.

Applicable to plasmas with any degree of electronic gas degeneration.

Utilizes a validated conductivity model from prior work.

Abstract

The kinetic description of magnetic susceptibility and Landau diamagnetism of quantum collisional plasmas with any degeration of electronic gas is given. The correct expression of electric conductivity of quantum collisional plasmas with any degeration of electronic gas (see A. V. Latyshev and A. A. Yushkanov, Transverse electrical conductivity of a quantum collisional plasma in the Mermin approach. - Theor. and Math. Phys., V. 175(1):559-569 (2013)) is used.