The self-organization of a tokamak plasma is a fundamental turbulent plasma phenomenon, which leads to the formation of a self-consistent pressure profile. This phenomenon has been investigated in several tokamaks with different methods of heating. It is shown that the normalized pressure profile has a universal shape for a wide class of tokamaks and regimes, if the normalized radius rho = r/(IpR/kappa B)(1/2) is used. The consequences of this phenomenon for low aspect ratio tokamaks, the optimal deposition of additional heating, fast velocity of heat/cold pulse propagation and the possibility of obtaining a peaked density profile in ITER are discussed
The overall performance of a tokamak strongly depends on phenomena that take place in a thin region ...
A first-principles scaling law, based on turbulent transport considerations, and a multi-machine dat...
A new model for the electron temperature profile resilience in the outer half of tokamak plasmas is ...
The self-organization of a tokamak plasma is a fundamental turbulent plasma phenomenon, which leads ...
Analysis of a wide range of experimental results in plasma magnetic confinement investigations shows...
Self-organization processes are considered to have an important role in well confined plasmas produc...
The paper introduces the theory of plasma-wall self-organization (PWSO) in magnetic fusion and its f...
It is well known that the temperature profiles in a tokamak are self-consistent [1-3]. For the stell...
In this monograph the author presents the Canonical Profile Transport Model or CPTM as a rather gene...
The observation of peaked density profiles in tokamak plasmas, which are dominated by turbulent tran...
Flux-driven ion temperature gradient (ITG) turbulence and associated transport regulated by non-loca...
We report on the impact of anisotropy to tokamak plasma configuration and stability. Our focus is on...
"Theoretical models on improved confinement with peaked density profile and on H-mode are discussed....
The characteristics of the plasma density and temperature at the edge of a diverted tokamak are pres...
Fusion performance in tokamaks depends on the core and edge regions as well as on their nonlinear fe...
The overall performance of a tokamak strongly depends on phenomena that take place in a thin region ...
A first-principles scaling law, based on turbulent transport considerations, and a multi-machine dat...
A new model for the electron temperature profile resilience in the outer half of tokamak plasmas is ...
The self-organization of a tokamak plasma is a fundamental turbulent plasma phenomenon, which leads ...
Analysis of a wide range of experimental results in plasma magnetic confinement investigations shows...
Self-organization processes are considered to have an important role in well confined plasmas produc...
The paper introduces the theory of plasma-wall self-organization (PWSO) in magnetic fusion and its f...
It is well known that the temperature profiles in a tokamak are self-consistent [1-3]. For the stell...
In this monograph the author presents the Canonical Profile Transport Model or CPTM as a rather gene...
The observation of peaked density profiles in tokamak plasmas, which are dominated by turbulent tran...
Flux-driven ion temperature gradient (ITG) turbulence and associated transport regulated by non-loca...
We report on the impact of anisotropy to tokamak plasma configuration and stability. Our focus is on...
"Theoretical models on improved confinement with peaked density profile and on H-mode are discussed....
The characteristics of the plasma density and temperature at the edge of a diverted tokamak are pres...
Fusion performance in tokamaks depends on the core and edge regions as well as on their nonlinear fe...
The overall performance of a tokamak strongly depends on phenomena that take place in a thin region ...
A first-principles scaling law, based on turbulent transport considerations, and a multi-machine dat...
A new model for the electron temperature profile resilience in the outer half of tokamak plasmas is ...