Physics:Quantum Plasma physics: Difference between revisions

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{{Short description|Plasma physics in quantum and high-energy contexts}}
{{Short description|Plasma physics in quantum and high-energy contexts}}
{{Quantum book backlink|Plasma and fusion physics}}
{{Quantum book backlink|Plasma and fusion physics}}
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'''Quantum plasma physics''' studies ionized matter when collective electromagnetic behavior must be understood together with microscopic particle motion, radiation, collisions, waves, or quantum-scale constraints. In the Quantum Collection it connects fusion plasmas, kinetic theory, transport, drift motion, instabilities, and detector or beam environments where charged particles interact through long-range fields.
Plasma physics is a Book I topic in the Quantum Collection. It studies ionized matter whose charged particles respond collectively to electric and magnetic fields. Quantum and high-energy contexts include fusion plasmas, beam plasmas, dense plasmas, astrophysical plasmas, and kinetic descriptions where microscopic particle motion shapes macroscopic behavior. The topic connects waves, instabilities, transport, magnetohydrodynamics, collisions, radiation, confinement, and plasma diagnostics. It is a bridge between many-particle dynamics and laboratory or astrophysical systems where electromagnetic interactions dominate.
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[[File:Quantum_Plasma_physics_concept_map.svg|thumb|280px|Plasma physics in the Quantum Collection.]]
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== Overview ==
== Overview ==
Plasma physics treats matter made of charged particles whose motion is coupled through electromagnetic fields. Quantum and high-energy contexts often use kinetic descriptions, magnetohydrodynamic approximations, transport coefficients, and wave-particle interactions to connect microscopic dynamics with macroscopic plasma behavior.
Plasma physics treats matter made of charged particles whose motion is coupled through electromagnetic fields. Quantum and high-energy contexts often use kinetic descriptions, magnetohydrodynamic approximations, transport coefficients, and wave-particle interactions to connect microscopic dynamics with macroscopic plasma behavior.<ref>{{Cite book |last=Morozov |first=A. I. |title=Introduction to Plasma Dynamics |publisher=CRC Press |year=2012 |isbn=978-1-4398-8132-3}}</ref>


== See also ==
== See also ==
{{#invoke:PhysicsQC|tocHeadingAndList|Physics:Quantum basics/See also/Methods}}
{{#invoke:PhysicsQC|tocHeadingAndList|Physics:Quantum basics/See also/Matter}}


== References ==
== References ==
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{{Author|Harold Foppele}}
{{Author|Harold Foppele}}
{{Sourceattribution|Physics:Quantum Plasma physics|1}}
{{Sourceattribution|Physics:Quantum Plasma physics|1}}
* {{Cite book |last=Chen |first=Francis F. |title=Introduction to Plasma Physics and Controlled Fusion |publisher=Springer |year=2016 |isbn=978-3-319-22308-7}}
* {{Cite book |last=Bellan |first=Paul M. |title=Fundamentals of Plasma Physics |publisher=Cambridge University Press |year=2006 |isbn=978-0-521-52800-9}}

Latest revision as of 23:33, 23 May 2026

← Back to Plasma and fusion physics Book I

Plasma physics is a Book I topic in the Quantum Collection. It studies ionized matter whose charged particles respond collectively to electric and magnetic fields. Quantum and high-energy contexts include fusion plasmas, beam plasmas, dense plasmas, astrophysical plasmas, and kinetic descriptions where microscopic particle motion shapes macroscopic behavior. The topic connects waves, instabilities, transport, magnetohydrodynamics, collisions, radiation, confinement, and plasma diagnostics. It is a bridge between many-particle dynamics and laboratory or astrophysical systems where electromagnetic interactions dominate.

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Plasma physics in the Quantum Collection.

Overview

Plasma physics treats matter made of charged particles whose motion is coupled through electromagnetic fields. Quantum and high-energy contexts often use kinetic descriptions, magnetohydrodynamic approximations, transport coefficients, and wave-particle interactions to connect microscopic dynamics with macroscopic plasma behavior.[1]

See also

Table of contents (84 articles)

Index

Full contents

References

  1. Morozov, A. I. (2012). Introduction to Plasma Dynamics. CRC Press. ISBN 978-1-4398-8132-3. 


Author: Harold Foppele


Source attribution: Physics:Quantum Plasma physics

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