Here we present details of an operator-split, implicit-explicit numerical scheme for the solution of the gyrokinetic-Poisson system of equations in the local limit. This scheme has been implemented in a new code called stella, which is capable of evolving electrostatic fluctuations with full kinetic electron effects and an arbitrary number of ion species in general magnetic geometry. We demonstrate the advantages of this mixed approach over a fully explicit treatment and provide linear and nonlinear benchmark comparisons for both axisymmetric and non-axisymmetric magnetic equilibria
In magnetically confined plasmas used in Tokamak, turbulence is respon-sible for specific transport ...
A global nonlinear simulation code for the time evolution of ion-temperature-gradient-driven modes i...
The aim of this paper is to report on recent advances made in global gyrokinetic simulations of ion ...
Here we present details of an operator-split, implicit-explicit numerical scheme for the solution of...
A novel approach to global gyrokinetic simulation is implemented in the flux-tube code stella. This ...
The first experimental campaigns have proven that, due to the optimization of the magnetic configura...
A global plasma turbulence simulation code, ORB5, is presented. It solves the gyrokinetic electrosta...
A novel approach to global gyrokinetic simulation is implemented in the flux-tube code $\texttt{stel...
The first experimental campaigns have proven that, due to the optimization of the magnetic configura...
This paper presents the numerical methods for the nonlinear simulations of cyclokinetic [Waltz and Z...
Abstract. In this paper, we extend the multiscale approach developed in [Abel et. al., Rep. Prog. Ph...
In order to better identify the role of the magnetic topology on ITG and TEM instabilities, differen...
A semi-Lagrangian scheme is applied for the first time to computations of charged particle motions a...
In magnetically confined plasmas used in Tokamak, turbulence is respon-sible for specific transport ...
A new nonlinear gyro-kinetic flux tube code (GKW) for the simulation of micro instabilities and turb...
In magnetically confined plasmas used in Tokamak, turbulence is respon-sible for specific transport ...
A global nonlinear simulation code for the time evolution of ion-temperature-gradient-driven modes i...
The aim of this paper is to report on recent advances made in global gyrokinetic simulations of ion ...
Here we present details of an operator-split, implicit-explicit numerical scheme for the solution of...
A novel approach to global gyrokinetic simulation is implemented in the flux-tube code stella. This ...
The first experimental campaigns have proven that, due to the optimization of the magnetic configura...
A global plasma turbulence simulation code, ORB5, is presented. It solves the gyrokinetic electrosta...
A novel approach to global gyrokinetic simulation is implemented in the flux-tube code $\texttt{stel...
The first experimental campaigns have proven that, due to the optimization of the magnetic configura...
This paper presents the numerical methods for the nonlinear simulations of cyclokinetic [Waltz and Z...
Abstract. In this paper, we extend the multiscale approach developed in [Abel et. al., Rep. Prog. Ph...
In order to better identify the role of the magnetic topology on ITG and TEM instabilities, differen...
A semi-Lagrangian scheme is applied for the first time to computations of charged particle motions a...
In magnetically confined plasmas used in Tokamak, turbulence is respon-sible for specific transport ...
A new nonlinear gyro-kinetic flux tube code (GKW) for the simulation of micro instabilities and turb...
In magnetically confined plasmas used in Tokamak, turbulence is respon-sible for specific transport ...
A global nonlinear simulation code for the time evolution of ion-temperature-gradient-driven modes i...
The aim of this paper is to report on recent advances made in global gyrokinetic simulations of ion ...