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Hauptverfasser: Sakai, Kentaro, Tomita, Kentaro, Hoshi, Takeo, Yasuhara, Ryo
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2508.20627
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author Sakai, Kentaro
Tomita, Kentaro
Hoshi, Takeo
Yasuhara, Ryo
author_facet Sakai, Kentaro
Tomita, Kentaro
Hoshi, Takeo
Yasuhara, Ryo
contents We developed a Monte Carlo simulation method to calculate incoherent Thomson scattering spectra in high temperature plasmas. The basic idea is to treat the entire scattering process as the superposition of individual photon-electron interactions. We introduce macro-particles, referred from particle-in-cell simulations, to reduce the computational cost, and obtain scattered spectra within a reasonable computational time. Since the velocity of the interacting electron is randomly sampled from an electron distribution function, the method can be applied to arbitrary electron distribution functions provided an appropriate sampling scheme is available. We present simulation results for relativistic Maxwellian and kappa distribution functions, and compare them with both analytical and numerical spectra for validation. The simulated spectra show good agreement with both analytical and numerical results, demonstrating that the Monte Carlo simulation method can reliably reproduce incoherent Thomson scattering spectra.
format Preprint
id arxiv_https___arxiv_org_abs_2508_20627
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Monte Carlo simulation method for incoherent Thomson scattering spectra from arbitrary electron distribution functions
Sakai, Kentaro
Tomita, Kentaro
Hoshi, Takeo
Yasuhara, Ryo
Plasma Physics
We developed a Monte Carlo simulation method to calculate incoherent Thomson scattering spectra in high temperature plasmas. The basic idea is to treat the entire scattering process as the superposition of individual photon-electron interactions. We introduce macro-particles, referred from particle-in-cell simulations, to reduce the computational cost, and obtain scattered spectra within a reasonable computational time. Since the velocity of the interacting electron is randomly sampled from an electron distribution function, the method can be applied to arbitrary electron distribution functions provided an appropriate sampling scheme is available. We present simulation results for relativistic Maxwellian and kappa distribution functions, and compare them with both analytical and numerical spectra for validation. The simulated spectra show good agreement with both analytical and numerical results, demonstrating that the Monte Carlo simulation method can reliably reproduce incoherent Thomson scattering spectra.
title Monte Carlo simulation method for incoherent Thomson scattering spectra from arbitrary electron distribution functions
topic Plasma Physics
url https://arxiv.org/abs/2508.20627