One of the key challenges for plasma theory and simulation in view of ITER is to enhance the understanding and predictive capability concerning high-performance discharges. This involves, in particular, questions about high- β operation, ion temperature profile stiffness, and the physics of transport barriers. The goal of this contribution is to shed light on these issues by means of physically comprehensive ab initio simulations with the global gyrokinetic code GENE, applied to discharges in TCV, ASDEX Upgrade, and JET—with direct relevance to ITER.</p
In magnetic fusion devices, the radial transport of heat and particle largely exceeds predictions ba...
A continuum global gyrokinetic code GYRO has been developed to comprehensively simulate core turbule...
A benchmark of the reduced quasi-linear models QuaLiKiz and TGLF with GENE gyrokinetic simulations h...
One of the key challenges for plasma theory and simulation in view of ITER is to enhance the underst...
An accurate description of turbulence up to the transport time scale is essential for predicting cor...
Fusion power is one of few viable sustainable means of energy production. The tokamak is arguable th...
Fusion power is one of few viable and sustainable means of energy production. The tokamak is arguabl...
One of the most challenging problems facing plasma physicists today involves themodeling of plasma t...
Modern fusion research aims at making the energy source of the sun accessible for electricity genera...
Following the change of plasma facing components at JET from a carbon wall (CW) to a metal ITER-like...
Global gyrokinetic simulations of ion temperature gradient (ITG) driven turbulence in an ideal MHD I...
Following the change of plasma facing components at JET from a carbon wall (CW) to a metal ITER-like...
ABSTRACT Reliable predictive simulation capability addressing confinement properties in magnetically...
Reliable predictive simulation capability addressing confinement properties in magnetically confined...
Fusion performance in tokamaks depends on the core and edge regions as well as on their nonlinear fe...
In magnetic fusion devices, the radial transport of heat and particle largely exceeds predictions ba...
A continuum global gyrokinetic code GYRO has been developed to comprehensively simulate core turbule...
A benchmark of the reduced quasi-linear models QuaLiKiz and TGLF with GENE gyrokinetic simulations h...
One of the key challenges for plasma theory and simulation in view of ITER is to enhance the underst...
An accurate description of turbulence up to the transport time scale is essential for predicting cor...
Fusion power is one of few viable sustainable means of energy production. The tokamak is arguable th...
Fusion power is one of few viable and sustainable means of energy production. The tokamak is arguabl...
One of the most challenging problems facing plasma physicists today involves themodeling of plasma t...
Modern fusion research aims at making the energy source of the sun accessible for electricity genera...
Following the change of plasma facing components at JET from a carbon wall (CW) to a metal ITER-like...
Global gyrokinetic simulations of ion temperature gradient (ITG) driven turbulence in an ideal MHD I...
Following the change of plasma facing components at JET from a carbon wall (CW) to a metal ITER-like...
ABSTRACT Reliable predictive simulation capability addressing confinement properties in magnetically...
Reliable predictive simulation capability addressing confinement properties in magnetically confined...
Fusion performance in tokamaks depends on the core and edge regions as well as on their nonlinear fe...
In magnetic fusion devices, the radial transport of heat and particle largely exceeds predictions ba...
A continuum global gyrokinetic code GYRO has been developed to comprehensively simulate core turbule...
A benchmark of the reduced quasi-linear models QuaLiKiz and TGLF with GENE gyrokinetic simulations h...