Finite grid instability and spectral fidelity of the electrostatic particle-in-cell algorithm
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Publication:1682671
DOI10.1016/j.cpc.2016.05.021zbMath1375.76146arXiv1508.03360OpenAlexW2212917686MaRDI QIDQ1682671
Publication date: 5 December 2017
Published in: Computer Physics Communications (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1508.03360
Related Items (6)
Accurately simulating nine-dimensional phase space of relativistic particles in strong fields ⋮ Finite spatial-grid effects in energy-conserving particle-in-cell algorithms ⋮ A new field solver for modeling of relativistic particle-laser interactions using the particle-in-cell algorithm ⋮ Efficient Fourier basis particle simulation ⋮ A fully implicit, conservative, non-linear, electromagnetic hybrid particle-ion/fluid-electron algorithm ⋮ Time-step dependent force interpolation scheme for suppressing numerical Cherenkov instability in relativistic particle-in-cell simulations
Uses Software
Cites Work
- Numerical instability due to relativistic plasma drift in EM-PIC simulations
- Variational formulation of particle algorithms for kinetic plasma simulations
- Numerical stability of relativistic beam multidimensional PIC simulations employing the Esirkepov algorithm
- An energy- and charge-conserving, implicit, electrostatic particle-in-cell algorithm
- The energy conserving particle-in-cell method
- Plasma self-heating and saturation due to numerical instabilities
- A method to suppress the finite-grid instability in plasma simulations
- On the numerical dispersion of electromagnetic particle-in-cell code: finite grid instability
- Energy-conserving numerical approximations for Vlasov plasmas
- Development of a Consistent and Stable Fully Implicit Moment Method for Vlasov--Ampère Particle in Cell (PIC) System
- Gridless finite-size-particle plasma simulation
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