Latest revision as of 11:36, 22 May 2026

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Quantum collision operator is an operator used in Physics:Quantum kinetic theory to describe how interactions between particles change a quantum distribution function or density matrix over time. It represents the collisional part of a kinetic equation, separating scattering, relaxation, and redistribution processes from free motion and external-field evolution.

In plasma, condensed-matter, and many-body systems, collision operators are used to model effects such as particle scattering, energy exchange, decoherence, damping, and transport. They provide a bridge between microscopic quantum dynamics and macroscopic quantities such as conductivity, diffusion, viscosity, and relaxation rates.

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Quantum collision operator.

Role in kinetic equations

A quantum kinetic equation often separates evolution into a reversible part and a collision part. Schematically,

\frac{\partial f}{\partial t} + transport terms = C [f],

where $f$ is a distribution function and $C [f]$ is the collision operator.

The collision operator accounts for interactions that change the occupation of quantum states. Depending on the system, these may include electron-electron collisions, electron-phonon scattering, particle-wave interactions, or collisions between charged particles in a plasma.

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 {{Short description|Operator describing collisions in quantum kinetic theory}}
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-'''Quantum collision operator''' is an operator used in [[Physics:Quantum kinetic theory]] to describe how interactions between particles change a quantum distribution function or density matrix over time. It represents the collisional part of a kinetic equation, separating scattering, relaxation, and redistribution processes from free motion and external-field evolution.
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+Quantum collision operator''' is an operator used in [[Physics:Quantum kinetic theory]] to describe how interactions between particles change a quantum distribution function or density matrix over time. It represents the collisional part of a kinetic equation, separating scattering, relaxation, and redistribution processes from free motion and external-field evolution.
 In plasma, condensed-matter, and many-body systems, collision operators are used to model effects such as particle scattering, energy exchange, decoherence, damping, and transport. They provide a bridge between microscopic quantum dynamics and macroscopic quantities such as conductivity, diffusion, viscosity, and relaxation rates.
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+[[File:Quantum_field_theory_dependency_map.png|thumb|280px|Quantum collision operator.]]
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 == Role in kinetic equations ==
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 {{Author|Harold Foppele}}
-{{Sourceattribution|Collision operator|1}}
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Physics:Quantum collision operator: Difference between revisions

Latest revision as of 11:36, 22 May 2026

Role in kinetic equations

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