AbstractUsing the five-dimensional gyrokinetic equations for simulations of hot fusion plasmas requires discretizations with a lot degrees of freedom due to the curse of dimensionality. The sparse grid combination technique could be one remedy to this problem, since it is dividing the original problem into smaller subproblems, which can be solved independently. For this study, the gyrokinetic code GENE has been used for solving the gyrokinetic eigenvalue problem using the combination technique. The performance of different combination schemes is used on a test problem and evaluated with respect to accuracy in retrieving an eigenvalue and the computational effort required. This evaluation suggests, that the sparse grid combination technique ...
One of the most challenging problems facing plasma physicists today involves themodeling of plasma t...
Magnetic confinement fusion reactors suffer severely from heat and particle losses through turbulent...
Direct coupling between a transport solver and local, nonlinear gyrokinetic calculations using the m...
AbstractUsing the five-dimensional gyrokinetic equations for simulations of hot fusion plasmas requi...
The simulation of hot fusion plasmas via the five-dimensional gyrokinetic equations is computational...
Solving the linearized and five-dimensional gyrokinetic equations can already be used to retrieve th...
Plasma microinstabilities, which can be described in the framework of the linear gyrokinetic equatio...
Functionals related to a solution of a problem, usually modelled by partial differential equations, ...
Gyrokinetic modeling is appropriate for describing Tokamak plasma turbulence, and the gyro...
The nonlinear gyrokinetic equations describe plasma turbulence in laboratory and astrophysical plasm...
In magnetically confined plasmas used in Tokamak, turbulence is respon-sible for specific transport ...
In magnetically confined plasmas used in Tokamak, turbulence is respon-sible for specific transport ...
International audienceThis paper addresses non-linear gyrokinetic simulations of ion temperature gra...
International audienceGyrokinetic modeling is appropriate for describing Tokamak plasma turbulence, ...
A hyperbolic solver is developed for the gyrokinetic equation in tokamak geometry. Aiming a whole de...
One of the most challenging problems facing plasma physicists today involves themodeling of plasma t...
Magnetic confinement fusion reactors suffer severely from heat and particle losses through turbulent...
Direct coupling between a transport solver and local, nonlinear gyrokinetic calculations using the m...
AbstractUsing the five-dimensional gyrokinetic equations for simulations of hot fusion plasmas requi...
The simulation of hot fusion plasmas via the five-dimensional gyrokinetic equations is computational...
Solving the linearized and five-dimensional gyrokinetic equations can already be used to retrieve th...
Plasma microinstabilities, which can be described in the framework of the linear gyrokinetic equatio...
Functionals related to a solution of a problem, usually modelled by partial differential equations, ...
Gyrokinetic modeling is appropriate for describing Tokamak plasma turbulence, and the gyro...
The nonlinear gyrokinetic equations describe plasma turbulence in laboratory and astrophysical plasm...
In magnetically confined plasmas used in Tokamak, turbulence is respon-sible for specific transport ...
In magnetically confined plasmas used in Tokamak, turbulence is respon-sible for specific transport ...
International audienceThis paper addresses non-linear gyrokinetic simulations of ion temperature gra...
International audienceGyrokinetic modeling is appropriate for describing Tokamak plasma turbulence, ...
A hyperbolic solver is developed for the gyrokinetic equation in tokamak geometry. Aiming a whole de...
One of the most challenging problems facing plasma physicists today involves themodeling of plasma t...
Magnetic confinement fusion reactors suffer severely from heat and particle losses through turbulent...
Direct coupling between a transport solver and local, nonlinear gyrokinetic calculations using the m...