Performance prediction for ITER is based upon the ubiquitous experimental observation that the plasma energy confinement in the device core is strongly coupled to the edge confinement for an unknown reason. The coupling time-scale is much shorter than the plasma transport time-scale. In order to understand this critical observation, a multi-scale turbulence-neoclassical simulation of integrated edge-core plasma in a realistic diverted geometry is a necessity, but has been a formidable task. Thanks to the recent development in high performance computing, we have succeeded in the integrated multiscale gyrokinetic simulation of the ion-temperature-gradient driven turbulence in realistic diverted tokamak geometry for the first time. It is found...
A cross-comparison and verification of state-of-the-art European codes describing gradient-driven pl...
A continuum global gyrokinetic code GYRO has been developed to comprehensively simulate core turbule...
Following the change of plasma facing components at JET from a carbon wall (CW) to a metal ITER-like...
Global electrostatic ITG turbulence physics, together with background dynamics, has been simulated i...
Fusion performance in tokamaks depends on the core and edge regions as well as on their nonlinear fe...
ABSTRACT Reliable predictive simulation capability addressing confinement properties in magnetically...
Global gyrokinetic simulations of ion temperature gradient (ITG) driven turbulence in an ideal MHD I...
Reliable predictive simulation capability addressing confinement properties in magnetically confined...
One of the nagging, unresolved questions in fusion theory is concerned with the extent of the edge. ...
It is found from a heat-flux-driven full- f gyrokinetic particle simulation that there is ion temper...
The main purpose of this thesis is the validation of the gyrokinetic method in the near-edge region ...
Abstract: We report on the resolution of a significant discrepancy between published continuum-code ...
Fusion power is one of few viable sustainable means of energy production. The tokamak is arguable th...
A continuum global gyrokinetic code GYRO has been developed to comprehensively simulate core turbule...
The accurate prediction of turbulent transport and its effect on tokamak operation is vital for the ...
A cross-comparison and verification of state-of-the-art European codes describing gradient-driven pl...
A continuum global gyrokinetic code GYRO has been developed to comprehensively simulate core turbule...
Following the change of plasma facing components at JET from a carbon wall (CW) to a metal ITER-like...
Global electrostatic ITG turbulence physics, together with background dynamics, has been simulated i...
Fusion performance in tokamaks depends on the core and edge regions as well as on their nonlinear fe...
ABSTRACT Reliable predictive simulation capability addressing confinement properties in magnetically...
Global gyrokinetic simulations of ion temperature gradient (ITG) driven turbulence in an ideal MHD I...
Reliable predictive simulation capability addressing confinement properties in magnetically confined...
One of the nagging, unresolved questions in fusion theory is concerned with the extent of the edge. ...
It is found from a heat-flux-driven full- f gyrokinetic particle simulation that there is ion temper...
The main purpose of this thesis is the validation of the gyrokinetic method in the near-edge region ...
Abstract: We report on the resolution of a significant discrepancy between published continuum-code ...
Fusion power is one of few viable sustainable means of energy production. The tokamak is arguable th...
A continuum global gyrokinetic code GYRO has been developed to comprehensively simulate core turbule...
The accurate prediction of turbulent transport and its effect on tokamak operation is vital for the ...
A cross-comparison and verification of state-of-the-art European codes describing gradient-driven pl...
A continuum global gyrokinetic code GYRO has been developed to comprehensively simulate core turbule...
Following the change of plasma facing components at JET from a carbon wall (CW) to a metal ITER-like...