Energy and charge conserving semi-implicit particle-in-cell model for simulations of high-pressure plasmas in magnetic traps

DOI10.1016/j.cpc.2023.109020OpenAlexW4388821748MaRDI QIDQ6137642

V. A. Kurshakov, E. A. Berendeev, I. V. Timofeev

Publication date: 16 January 2024

Published in: Computer Physics Communications (Search for Journal in Brave)

Full work available at URL: https://doi.org/10.1016/j.cpc.2023.109020

zbMATH Keywords

particle-in-cell simulations high-\(\beta\) plasma mirror traps

Mathematics Subject Classification ID

Fluid mechanics (76-XX) Statistical mechanics, structure of matter (82-XX)

Cites Work

The energy conserving particle-in-cell method
Direct implicit large time-step particle simulation of plasmas
An implicit method for electromagnetic plasma simulation in two dimensions
Accurate numerical solution of charged particle motion in a magnetic field
Exactly energy conserving semi-implicit particle in cell formulation
An energy-conserving and asymptotic-preserving charged-particle orbit implicit time integrator for arbitrary electromagnetic fields
On numerical energy conservation for an implicit particle-in-cell method coupled with a binary Monte-Carlo algorithm for Coulomb collisions
A semi-implicit electromagnetic FEM-PIC scheme with exact energy and charge conservation
Gauss's law satisfying energy-conserving semi-implicit particle-in-cell method
Numerical solution of initial boundary value problems involving maxwell's equations in isotropic media
Exact charge conservation scheme for particle-in-cell simulation with an arbitrary form-factor

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