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A filtered Boris algorithm for charged-particle dynamics in a strong magnetic field - MaRDI portal

A filtered Boris algorithm for charged-particle dynamics in a strong magnetic field

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Publication:2309511

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DOI10.1007/s00211-020-01105-3zbMath1434.65312arXiv1907.07452OpenAlexW3006343344MaRDI QIDQ2309511

Bin Wang, Christian Lubich, Ernst Hairer

Publication date: 1 April 2020

Published in: Numerische Mathematik (Search for Journal in Brave)

Full work available at URL: https://arxiv.org/abs/1907.07452

zbMATH Keywords

numerical integration motion of charged particles strong nonuniform magnetic field

Mathematics Subject Classification ID

Finite difference methods applied to problems in optics and electromagnetic theory (78M20) Numerical methods for initial value problems involving ordinary differential equations (65L05) Motion of charged particles (78A35) Numerical methods for Hamiltonian systems including symplectic integrators (65P10)

Related Items (23)

Asymptotic-preserving schemes for multiscale physical problems ⋮ Large-stepsize integrators for charged-particle dynamics over multiple time scales ⋮ Energy-Preserving Continuous-Stage Exponential Runge--Kutta Integrators for Efficiently Solving Hamiltonian Systems ⋮ Geometric continuous-stage exponential energy-preserving integrators for charged-particle dynamics in a magnetic field from normal to strong regimes ⋮ Long-Time Oscillatory Energy Conservation of Total Energy-Preserving Methods for Highly Oscillatory Hamiltonian Systems ⋮ Waveform Relaxation Methods for Lie-Group Equations ⋮ Explicit symmetric exponential integrators for charged-particle dynamics in a strong and constant magnetic field ⋮ Semi-discretization and full-discretization with improved accuracy for charged-particle dynamics in a strong nonuniform magnetic field ⋮ Geometric Two-Scale Integrators for Highly Oscillatory System: Uniform Accuracy and Near Conservations ⋮ Structure-preserving algorithms with uniform error bound and long-time energy conservation for highly oscillatory Hamiltonian systems ⋮ Linearly implicit and high-order energy-preserving relaxation schemes for highly oscillatory Hamiltonian systems ⋮ On a large-stepsize integrator for charged-particle dynamics ⋮ A novel class of explicit energy-preserving splitting methods for charged-particle dynamics ⋮ Continuous-stage adapted exponential methods for charged-particle dynamics with arbitrary magnetic fields ⋮ Improved uniform error bounds on parareal exponential algorithm for highly oscillatory systems ⋮ A two-step symmetric method for charged-particle dynamics in a normal or strong magnetic field ⋮ A long-term numerical energy-preserving analysis of symmetric and/or symplectic extended RKN integrators for efficiently solving highly oscillatory Hamiltonian systems ⋮ Energy-preserving splitting methods for charged-particle dynamics in a normal or strong magnetic field ⋮ Convergence analysis of asymptotic preserving schemes for strongly magnetized plasmas ⋮ Error Estimates of Some Splitting Schemes for Charged-Particle Dynamics under Strong Magnetic Field ⋮ Long term analysis of splitting methods for charged-particle dynamics ⋮ Explicit exponential algorithms for two-dimensional charged-particle dynamics with non-homogeneous electromagnetic fields ⋮ Optimal convergence and long-time conservation of exponential integration for Schrödinger equations in a normal or highly oscillatory regime

Cites Work

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