An implicit \(\delta\) particle-in-cell method with sub-cycling and orbit averaging for Lorentz ions
DOI10.1016/j.jcp.2016.04.036zbMath1349.82153OpenAlexW2336116342MaRDI QIDQ2375246
Scott E. Parker, Benjamin B. Hause, Yang Chen, Benjamin J. M. Sturdevant
Publication date: 5 December 2016
Published in: Journal of Computational Physics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jcp.2016.04.036
GPU computingorbit averagingimplicit particle-in-cell\(\delta\) methodFLR effectsLorentz ionsmagnetized plasma simulationsub-cycling
Particle methods and lattice-gas methods (76M28) Statistical mechanics of plasmas (82D10) Ionized gas flow in electromagnetic fields; plasmic flow (76X05) Probabilistic methods, particle methods, etc. for initial value and initial-boundary value problems involving PDEs (65M75)
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- A second-order semi-implicit \(\delta f\) method for hybrid simulation
- Fluid preconditioning for Newton-Krylov-based, fully implicit, electrostatic particle-in-cell simulations
- Particle-in-cell simulations with charge-conserving current deposition on graphic processing units
- An energy- and charge-conserving, implicit, electrostatic particle-in-cell algorithm
- The energy conserving particle-in-cell method
- Partially linearized algorithms in gyrokinetic particle simulation
- Bounded multi-scale plasma simulation: Application to sheath problems
- An orbit averaged particle code
- Orbit-averaged implicit particle codes
- Stability and application of an orbit-averaged magneto-inductive particle code
- Finite time step and spatial grid effects in \(\delta\) simulation of warm plasmas
- A charge- and energy-conserving implicit, electrostatic particle-in-cell algorithm on mapped computational meshes
- Waves in a Plasma in a Magnetic Field
- Nonlinear gyrokinetic equations for low-frequency electromagnetic waves in general plasma equilibria
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