Vlasov-Fokker-Planck-Maxwell simulations for plasmas in inertial confinement fusion

Vlasov-Fokker-Planck-Maxwell simulations for plasmas in inertial confinement fusion

This work presents a code to simulate collisions and laser-plasma interactions of multiple-species plasmas by solving 1D3V Vlasov-Fokker-Planck-Maxwell equations. The distribution functions of all species are expanded into spherical harmonic series of arbitrary order. Each electron or ion species po...

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Bibliographic Details
Published in:Computer physics communications Vol. 294; p. 108932
Main Authors: Zhang, S.T., Li, X.M., Liu, D.J., Li, X.X., Cheng, R.J., Lv, S.Y., Huang, Z.M., Qiao, B., Liu, Z.J., Cao, L.H., Zheng, C.Y., He, X.T.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2024
Subjects:
Fokker–Planck
Inertial confinement fusion
Laser-plasma interactions
Plasma simulation
Plasma transport processes
TVD scheme
Plasma simulation
Plasma transport processes
Laser-plasma interactions
Fokker–Planck
TVD scheme
Inertial confinement fusion
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Summary:This work presents a code to simulate collisions and laser-plasma interactions of multiple-species plasmas by solving 1D3V Vlasov-Fokker-Planck-Maxwell equations. The distribution functions of all species are expanded into spherical harmonic series of arbitrary order. Each electron or ion species possesses its distinct and suitable velocity mesh and the number of harmonics. Collisions between different ion species are considered and treated with the Fokker-Planck collision term. The code employs the total variation diminishing (TVD) scheme to avoid numerical instabilities in the region of steep density, rarefied plasma-vacuum interface, and non-periodic boundary conditions, which makes it possible to simulate cases that are close to actual physical scenes. The number of particles is globally conserved for each species, the energy for each species is conserved for collisions between the same species, and total energy is conserved for collisions between different species.
ISSN:0010-4655
1879-2944
DOI:10.1016/j.cpc.2023.108932