On a large-stepsize integrator for charged-particle dynamics
DOI10.1007/s10543-023-00951-5OpenAlexW4319170660MaRDI QIDQ2684446
Publication date: 16 February 2023
Published in: BIT (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/2205.12895
charged particlemodulated Fourier expansionguiding centremodified Boris integratorstrong non-uniform magnetic field
Stability and convergence of numerical methods for ordinary differential equations (65L20) Motion of charged particles (78A35) Numerical methods for Hamiltonian systems including symplectic integrators (65P10) Numerical solution of singularly perturbed problems involving ordinary differential equations (65L11)
Cites Work
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- Numerical error in electron orbits with large \(\omega{} _{ce}\Delta{} t\)
- Accurate numerical solution of charged particle motion in a magnetic field
- Energy behaviour of the Boris method for charged-particle dynamics
- An energy-conserving and asymptotic-preserving charged-particle orbit implicit time integrator for arbitrary electromagnetic fields
- Large-stepsize integrators for charged-particle dynamics over multiple time scales
- INVITED: Slow manifold reduction for plasma science
- Exponential energy-preserving methods for charged-particle dynamics in a strong and constant magnetic field
- Long-term analysis of a variational integrator for charged-particle dynamics in a strong magnetic field
- A filtered Boris algorithm for charged-particle dynamics in a strong magnetic field
- Long-Time Energy Conservation of Numerical Methods for Oscillatory Differential Equations
- Adiabatic invariants and trapping of a point charge in a strong nonuniform magnetic field
- Error Estimates of Some Splitting Schemes for Charged-Particle Dynamics under Strong Magnetic Field
- Normal stability of slow manifolds in nearly periodic Hamiltonian systems
- Geometric Numerical Integration
- Slow manifolds of classical Pauli particle enable structure-preserving geometric algorithms for guiding center dynamics
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