Universal method of strictly calculating self-consistent fields of   realistic plasma particles

H. Lin

arXiv:1008.2612·physics.plasm-ph·August 17, 2010

Universal method of strictly calculating self-consistent fields of realistic plasma particles

H. Lin

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Open Access

TL;DR

This paper introduces a universal method for accurately calculating self-consistent fields of realistic plasma particles, integrating particle simulation, Vlasov-Maxwell theory, and fluid theory.

Contribution

It presents a novel, unified approach that combines three fundamental tools in plasma physics to compute self-consistent fields more precisely.

Findings

01

Method derived from three core plasma physics tools.

02

Applicable to realistic plasma particles.

03

Enhances accuracy of plasma field calculations.

Abstract

A universal method of strictly calculating self-consistent fields of realistic plasma particles could be strictly derived from three basic tools in theoretical plasma physics: particle simulation, Vlasov-Maxwell theory and fluid theory.

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Taxonomy

TopicsSolar and Space Plasma Dynamics · Ionosphere and magnetosphere dynamics · Magnetic confinement fusion research