We quantify the impact of poloidal and toroidal rotation, anisotropy and energetic particle pressure produced by neutral beam injected energetic particles on the magnetic configuration and wave modes in tokamaks. Specifically, we focus on the class of spherical tokamaks, for which the impact of neutral beam heating is larger due to the relatively low toroidal field and large trapped particle fraction. Recently, (Hole et al 2011 Plasma Phys. Control. Fusion 53 074021) we have used Bayesian inference techniques to compute rotating MAST equilibria, and thereby compute toroidal and poloidal Mach numbers and their uncertainties, as well as computed MAST anisotropic equilibria in the presence of neutral beam heating. Motivated by this work, we co...
In many magnetically confined fusion experiments, a significant fraction of the stored energy of the...
As a result of toroidal rotation, sequences of new global modes are predicted to arise in magnetical...
The developments of advanced tokamak scenarios as well as the employment of a new neutral beam injec...
In this paper we study the effects of poloidal and toroidal rotation, and anisotropy in tokamaks. To...
We discuss two contributions that elucidate the impact of energetic particles and rotation on tokama...
A number of tools have recently been developed to study equilibrium and stability in tokamaks with p...
Superthermal energetic particles (EP) often drive shear Alfv́n waves unstable in magnetically confin...
Global gyrokinetic simulations find that realistic density gradients of energetic particles can simu...
The Spherical Tokamak (ST) concept has become one of the main avenues in magnetic nuclear fusion res...
One of the focal points of the present tokamak experiments is to gain better understanding and contr...
Energetic particles with super-Alfv\'enic speeds could potentially drive Alfv\'enic instabilities in...
This work reports on linear global gyrokinetic particle simulations of the excitation of toroidicity...
A major goal of the DIII-D program is to study 'advanced tokamak' plasmas with good confinement, lar...
The mutual nonlinear interactions of shear Alfvén modes and alpha particles can enhance their transp...
Alfvén waves are electromagnetic waves that occur in magnetised plasmas. Alfvén waves are routinely ...
In many magnetically confined fusion experiments, a significant fraction of the stored energy of the...
As a result of toroidal rotation, sequences of new global modes are predicted to arise in magnetical...
The developments of advanced tokamak scenarios as well as the employment of a new neutral beam injec...
In this paper we study the effects of poloidal and toroidal rotation, and anisotropy in tokamaks. To...
We discuss two contributions that elucidate the impact of energetic particles and rotation on tokama...
A number of tools have recently been developed to study equilibrium and stability in tokamaks with p...
Superthermal energetic particles (EP) often drive shear Alfv́n waves unstable in magnetically confin...
Global gyrokinetic simulations find that realistic density gradients of energetic particles can simu...
The Spherical Tokamak (ST) concept has become one of the main avenues in magnetic nuclear fusion res...
One of the focal points of the present tokamak experiments is to gain better understanding and contr...
Energetic particles with super-Alfv\'enic speeds could potentially drive Alfv\'enic instabilities in...
This work reports on linear global gyrokinetic particle simulations of the excitation of toroidicity...
A major goal of the DIII-D program is to study 'advanced tokamak' plasmas with good confinement, lar...
The mutual nonlinear interactions of shear Alfvén modes and alpha particles can enhance their transp...
Alfvén waves are electromagnetic waves that occur in magnetised plasmas. Alfvén waves are routinely ...
In many magnetically confined fusion experiments, a significant fraction of the stored energy of the...
As a result of toroidal rotation, sequences of new global modes are predicted to arise in magnetical...
The developments of advanced tokamak scenarios as well as the employment of a new neutral beam injec...