We explore the implementation of an Alternating Direction Implicit (ADI) algorithm for a gyrokinetic plasma problem and its resulting numerical stability properties. This algorithm, which uses a standard ADI scheme to divide the field solve from the particle distribution function advance, has previously been found to work well for certain plasma kinetic problems involving one spatial and two velocity dimensions, including collisions and an electric field. However, for the gyrokinetic problem we find a severe stability restriction on the time step. Furthermore, we find that this numerical instability limitation also affects some other algorithms, such as a partially implicit Adams-Bashforth algorithm, where the parallel motion operator v{sub...
DoctoralGyrokinetics is a self-consistent kinetic model of magnetised plasmas that applies to dynami...
Here we present details of an operator-split, implicit-explicit numerical scheme for the solution of...
One of the most challenging problems facing plasma physicists today involves themodeling of plasma t...
The direct implicit method with a second-order implicit integration scheme is formulated for and app...
A fully implicit particle-in-cell method for handling the v∥-formalism of electromagnetic gyrokineti...
In a plasma simulation, the nonlinear interactions among the charged particles and the fields they g...
The nonlinear gyrokinetic equations describe plasma turbulence in laboratory and astrophysical plasm...
Moving grids are of interest in the numerical solution of hydrodynamical problems and in numerical r...
The δf particle-in-cell algorithm has been a useful tool in studying the physics of plasmas, particu...
A semi-Lagrangian scheme is applied for the first time to computations of charged particle motions a...
: Alternating direction iterative (ADI) methods do not usually work well on parallel computers due t...
The present lecture provides an introduction to the subject of gyrokinetic theory with applications ...
This thesis focuses on the development of simulation models, based on fully resolving the gyro-motio...
Gyrokinetic simulations have greatly improved our theoretical understanding of turbulent transport i...
Nonlinear processes in hot, magnetized plasma are notoriously difficult to un-derstand without the u...
DoctoralGyrokinetics is a self-consistent kinetic model of magnetised plasmas that applies to dynami...
Here we present details of an operator-split, implicit-explicit numerical scheme for the solution of...
One of the most challenging problems facing plasma physicists today involves themodeling of plasma t...
The direct implicit method with a second-order implicit integration scheme is formulated for and app...
A fully implicit particle-in-cell method for handling the v∥-formalism of electromagnetic gyrokineti...
In a plasma simulation, the nonlinear interactions among the charged particles and the fields they g...
The nonlinear gyrokinetic equations describe plasma turbulence in laboratory and astrophysical plasm...
Moving grids are of interest in the numerical solution of hydrodynamical problems and in numerical r...
The δf particle-in-cell algorithm has been a useful tool in studying the physics of plasmas, particu...
A semi-Lagrangian scheme is applied for the first time to computations of charged particle motions a...
: Alternating direction iterative (ADI) methods do not usually work well on parallel computers due t...
The present lecture provides an introduction to the subject of gyrokinetic theory with applications ...
This thesis focuses on the development of simulation models, based on fully resolving the gyro-motio...
Gyrokinetic simulations have greatly improved our theoretical understanding of turbulent transport i...
Nonlinear processes in hot, magnetized plasma are notoriously difficult to un-derstand without the u...
DoctoralGyrokinetics is a self-consistent kinetic model of magnetised plasmas that applies to dynami...
Here we present details of an operator-split, implicit-explicit numerical scheme for the solution of...
One of the most challenging problems facing plasma physicists today involves themodeling of plasma t...