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Compton scattering in particle-in-cell codes

F. Del Gaudio, T. Grismayer, R. A. Fonseca, L. O. Silva

2020Journal of Plasma Physics20 citationsDOIOpen Access PDF

Abstract

We present a Monte Carlo collisional scheme that models single Compton scattering between leptons and photons in particle-in-cell codes. The numerical implementation of Compton scattering can deal with macro-particles of different weights and conserves momentum and energy in each collision. Our scheme is validated through two benchmarks for which exact analytical solutions exist: the inverse Compton spectra produced by an electron scattering with an isotropic photon gas and the photon–electron gas equilibrium described by the Kompaneets equation. It provides new opportunities for numerical investigation of plasma phenomena where a significant population of high-energy photons is present in the system.

Topics & Concepts

PhysicsCompton scatteringPhotonComputational physicsScatteringElectronLeptonIsotropyPopulationMonte Carlo methodMomentum (technical analysis)Quantum electrodynamicsSpectral lineCompton wavelengthNuclear physicsElectron scatteringInverseEnergy–momentum relationInverse scattering problemInelastic scatteringEnergy (signal processing)Momentum transferNumerical analysisLaser-Plasma Interactions and DiagnosticsHigh-Energy Particle Collisions ResearchAtomic and Molecular Physics
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