Add to ORKGIn subsonic tokamak pedestals the radial scale of plasma profiles can be comparable to the ion poloidal Larmor radius thereby making the radial electrostatic field so strong that the E 7B drift has to be retained in the ion kinetic equation in the same order as the parallel streaming when B_po
The equation describing the radial transport of toroidal momentum in a collisional subsonic plasma w...
The strong radial electric field in a subsonic tokamak pedestal modifies the neoclassical ion parall...
The classical transport theory is strictly valid for a plasma in a homogeneous and stationary magnet...
In tokamak pedestals with subsonic flows the radial scale of plasma profiles can be comparable to th...
Nuclear fusion has the potential to become a sustainable energy sourcein the foreseeable future. The...
We consider the effects of a finite radial electric field on ion orbits in a subsonic pedestal. Usin...
In tokamak transport barriers, the radial scale of profile variations can be comparable to a typical...
We consider the effects of a finite pedestal radial electric field on ion orbits using a unified app...
Neoclassical implications of the strong radial electric field, inherently present in an H-mode tokam...
We study neoclassical transport in steady-state density pedestals with non-trace impurities using th...
We present a numerical study of collisional transport in a tokamak pedestal in the presence of non-t...
General metrics of large aspect ratio tokamaks is used in the paper. General expressions for the neo...
A semi-empirical analysis of the heat balance of ohmically heated, high density Tokamak plasmas, sho...
This paper presents a numerical simulation to test the corrections to the radial electric field in t...
The neoclassical electric field in a tokamak is determined by the conservation of toroidal angular m...
The equation describing the radial transport of toroidal momentum in a collisional subsonic plasma w...
The strong radial electric field in a subsonic tokamak pedestal modifies the neoclassical ion parall...
The classical transport theory is strictly valid for a plasma in a homogeneous and stationary magnet...
In tokamak pedestals with subsonic flows the radial scale of plasma profiles can be comparable to th...
Nuclear fusion has the potential to become a sustainable energy sourcein the foreseeable future. The...
We consider the effects of a finite radial electric field on ion orbits in a subsonic pedestal. Usin...
In tokamak transport barriers, the radial scale of profile variations can be comparable to a typical...
We consider the effects of a finite pedestal radial electric field on ion orbits using a unified app...
Neoclassical implications of the strong radial electric field, inherently present in an H-mode tokam...
We study neoclassical transport in steady-state density pedestals with non-trace impurities using th...
We present a numerical study of collisional transport in a tokamak pedestal in the presence of non-t...
General metrics of large aspect ratio tokamaks is used in the paper. General expressions for the neo...
A semi-empirical analysis of the heat balance of ohmically heated, high density Tokamak plasmas, sho...
This paper presents a numerical simulation to test the corrections to the radial electric field in t...
The neoclassical electric field in a tokamak is determined by the conservation of toroidal angular m...
The equation describing the radial transport of toroidal momentum in a collisional subsonic plasma w...
The strong radial electric field in a subsonic tokamak pedestal modifies the neoclassical ion parall...
The classical transport theory is strictly valid for a plasma in a homogeneous and stationary magnet...