The direct implicit method with a second-order implicit integration scheme is formulated for and applied to the electron parallel nonlinearity in global electrostatic gyrokinetic particle-in-cell simulations of toroidal fusion plasmas. The method shows improved numerical accuracy and stability properties compared to the direct implicit method with a first-order integration scheme. The conservation of total energy and toroidal angular momentum are analyzed by both techniques and the results are presented
This thesis focuses on the development of simulation models, based on fully resolving the gyro-motio...
A full f nonlinear 5D gyrokinetic electrostatic particle‐in‐cell code ELMFIRE using an implicit dire...
A global nonlinear simulation code for the time evolution of ion-temperature-gradient-driven modes i...
In a plasma simulation, the nonlinear interactions among the charged particles and the fields they g...
A gyrokinetic particle-in-cell approach with direct implicit construction of the coefficient matrix ...
A toroidal, nonlinear, electrostatic fluid-kinetic hybrid electron model is formulated for global gy...
An electromagnetic particle simulation model has been formulated and verified for nonlinear processe...
A new scheme, based on an exact separation between adiabatic and nonadiabatic electron responses, fo...
An efficient numerical method for treating electrons in magnetized plasmas has been developed. The s...
A direct implicit ion polarization gyrokinetic full f particle-in-cell approach is implemented with ...
This paper surveys recent advances in the application of implicit integration schemes to particle si...
This paper discusses a novel fully implicit formulation for a one-dimensional electrostatic particle...
The gyrokinetic toroidal code has been upgraded for global simulations by coupling the core and scra...
A fully implicit particle-in-cell method for handling the v∥-formalism of electromagnetic gyrokineti...
We explore the implementation of an Alternating Direction Implicit (ADI) algorithm for a gyrokinetic...
This thesis focuses on the development of simulation models, based on fully resolving the gyro-motio...
A full f nonlinear 5D gyrokinetic electrostatic particle‐in‐cell code ELMFIRE using an implicit dire...
A global nonlinear simulation code for the time evolution of ion-temperature-gradient-driven modes i...
In a plasma simulation, the nonlinear interactions among the charged particles and the fields they g...
A gyrokinetic particle-in-cell approach with direct implicit construction of the coefficient matrix ...
A toroidal, nonlinear, electrostatic fluid-kinetic hybrid electron model is formulated for global gy...
An electromagnetic particle simulation model has been formulated and verified for nonlinear processe...
A new scheme, based on an exact separation between adiabatic and nonadiabatic electron responses, fo...
An efficient numerical method for treating electrons in magnetized plasmas has been developed. The s...
A direct implicit ion polarization gyrokinetic full f particle-in-cell approach is implemented with ...
This paper surveys recent advances in the application of implicit integration schemes to particle si...
This paper discusses a novel fully implicit formulation for a one-dimensional electrostatic particle...
The gyrokinetic toroidal code has been upgraded for global simulations by coupling the core and scra...
A fully implicit particle-in-cell method for handling the v∥-formalism of electromagnetic gyrokineti...
We explore the implementation of an Alternating Direction Implicit (ADI) algorithm for a gyrokinetic...
This thesis focuses on the development of simulation models, based on fully resolving the gyro-motio...
A full f nonlinear 5D gyrokinetic electrostatic particle‐in‐cell code ELMFIRE using an implicit dire...
A global nonlinear simulation code for the time evolution of ion-temperature-gradient-driven modes i...