AbstractLinear kinetic Monte Carlo particle transport models are frequently employed in fusion plasma simulations to quantify atomic and surface effects on the main plasma flow dynamics. Separate codes are used for transport of neutral particles (incl. radiation) and charged particles (trace impurity ions). Integration of both modules into main plasma fluid solvers provides then self-consistent solutions, in principle. The required interfaces are far from trivial, because rapid atomic processes in particular in the edge region of fusion plasmas require either smoothing and resampling, or frequent transfer of particles from one into the other Monte Carlo code. We propose a different scheme here, in which despite the inherently different math...
Neutral particles in the plasma edge of fusion devices based on magnetic confinement are described b...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
In recent years, the rapid evolution of computing power, available computer memory and parallel proc...
AbstractLinear kinetic Monte Carlo particle transport models are frequently employed in fusion plasm...
Charged particles of species different from the major constituents of a plasma might not reach local...
Neutral gas physics and neutral interactions with the plasma are key aspects of edge plasma and dive...
Predictive and interpretative edge plasma models often rely upon a kinetic neutral particle module. ...
Plasma edge simulations are extensively used for the development of operational scenarios of existin...
The recombination of plasma charged components, electrons and ions of hydrogen isotopes, on the wall...
Design of tokamak divertors relies heavily on plasma edge codes such as SOLPS-ITER to extrapolate fr...
The transport of neutral atoms and molecules in the edge and divertor regions of fusion experiments ...
© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim In the quest for computationally affordable plas...
We elaborate a hybrid fluid-kinetic model for neutral particles in the plasma edge. A macro/fluid mo...
Understanding and simulating the dynamics of plasmas in Tokamak devices is a crucial aspect of the p...
At present, (partially) detached divertor operation is considered as a necessity to obtain acceptabl...
Neutral particles in the plasma edge of fusion devices based on magnetic confinement are described b...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
In recent years, the rapid evolution of computing power, available computer memory and parallel proc...
AbstractLinear kinetic Monte Carlo particle transport models are frequently employed in fusion plasm...
Charged particles of species different from the major constituents of a plasma might not reach local...
Neutral gas physics and neutral interactions with the plasma are key aspects of edge plasma and dive...
Predictive and interpretative edge plasma models often rely upon a kinetic neutral particle module. ...
Plasma edge simulations are extensively used for the development of operational scenarios of existin...
The recombination of plasma charged components, electrons and ions of hydrogen isotopes, on the wall...
Design of tokamak divertors relies heavily on plasma edge codes such as SOLPS-ITER to extrapolate fr...
The transport of neutral atoms and molecules in the edge and divertor regions of fusion experiments ...
© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim In the quest for computationally affordable plas...
We elaborate a hybrid fluid-kinetic model for neutral particles in the plasma edge. A macro/fluid mo...
Understanding and simulating the dynamics of plasmas in Tokamak devices is a crucial aspect of the p...
At present, (partially) detached divertor operation is considered as a necessity to obtain acceptabl...
Neutral particles in the plasma edge of fusion devices based on magnetic confinement are described b...
We present an ion kinetic model describing the ignition and burn of the deuterium-tritium fuel of in...
In recent years, the rapid evolution of computing power, available computer memory and parallel proc...