Landau Diamagnetism of Degenerate Collisional Plasma
A. V. Latyshev, A. A. Yushkanov
TL;DR
This paper presents a kinetic theory analysis of Landau diamagnetism in degenerate collisional plasma, incorporating quantum effects and dissipation, and provides a new expression for transverse electric conductivity.
Contribution
It introduces a novel kinetic description of Landau diamagnetism in collisional plasma using an accurate quantum plasma conductivity expression.
Findings
Derived a new expression for transverse electric conductivity in quantum plasma.
Analyzed the impact of collisions on Landau diamagnetism.
Connected theoretical results with previous dissipation studies.
Abstract
For the first time the kinetic description of Landau diamagnetism for degenerate collisional plasma is given. The correct expression for transverse electric conductivity of the quantum plasma, found by authors (see arXiv:1002.1017 [math-ph] 4 Feb 2010) is used. In work S. Dattagupta, A.M. Jayannavar and N. Kumar [Current science, V. 80, No. 7, 10 April, 2001] was discussed the important problem of dissipation (collisions) influence on Landau diamagnetism. The analysis of this problem is given with the use of exact expression for transverse conductivity of quantum plasma.
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Taxonomy
TopicsDust and Plasma Wave Phenomena · Ionosphere and magnetosphere dynamics · Plasma Diagnostics and Applications