A Monte Carlo method of evaluating typical particle and energy transport coefficients is given for the case in which the particle drift orbits are a significant fraction of the plasma radius. The method is applied to a preliminary design for a helical axis (heliac) stellarator experiment
A Monte Carlo method has been developed that uses two different coordinate systems to model the tran...
The transport code ASTRA (an Automatic System for Transport Analysis in a Tokamak) was developed at ...
Methods for calculating neoclassical transport in the National Compact Stellarator Experiment (NCSX)...
We describe an implementation of a particle orbit-following simulation approach to the Monte Carlo c...
For tokamaks the Monte Carlo technique is a powerful method to study kinetic phenom-ena in plasmas...
Stellarator ion transport in the low-collisionality regime with a radial electric field is calculate...
The potential performance and flexibility of a compact, quasi-axisymmetric (QAS) stellarator design,...
Calculations of the neoclassical transport rates due to particles trapped in the helical ripples of ...
The stellarator neoclassical transport due to particles trapped in local helical wells is calculated...
Hamiltonian coordinate, guiding-center code calculations of the confinement of suprathermal ions in ...
The Caucny problem for a drift kinetic equation is investigated in the paper aiming at the Monte Car...
The ion and electron diffusion coefficients inside the helical magnetic core in a single helicity re...
Stellarator plasmas have a very complex geometry and so do the vacuum chambers of these devices. Tra...
Hamiltonian coordinate, guiding center code calculations of the confinement of suprathermal ions in ...
The author presents a numerical and analytic assessment of the transport in two quasi-axially symmet...
A Monte Carlo method has been developed that uses two different coordinate systems to model the tran...
The transport code ASTRA (an Automatic System for Transport Analysis in a Tokamak) was developed at ...
Methods for calculating neoclassical transport in the National Compact Stellarator Experiment (NCSX)...
We describe an implementation of a particle orbit-following simulation approach to the Monte Carlo c...
For tokamaks the Monte Carlo technique is a powerful method to study kinetic phenom-ena in plasmas...
Stellarator ion transport in the low-collisionality regime with a radial electric field is calculate...
The potential performance and flexibility of a compact, quasi-axisymmetric (QAS) stellarator design,...
Calculations of the neoclassical transport rates due to particles trapped in the helical ripples of ...
The stellarator neoclassical transport due to particles trapped in local helical wells is calculated...
Hamiltonian coordinate, guiding-center code calculations of the confinement of suprathermal ions in ...
The Caucny problem for a drift kinetic equation is investigated in the paper aiming at the Monte Car...
The ion and electron diffusion coefficients inside the helical magnetic core in a single helicity re...
Stellarator plasmas have a very complex geometry and so do the vacuum chambers of these devices. Tra...
Hamiltonian coordinate, guiding center code calculations of the confinement of suprathermal ions in ...
The author presents a numerical and analytic assessment of the transport in two quasi-axially symmet...
A Monte Carlo method has been developed that uses two different coordinate systems to model the tran...
The transport code ASTRA (an Automatic System for Transport Analysis in a Tokamak) was developed at ...
Methods for calculating neoclassical transport in the National Compact Stellarator Experiment (NCSX)...
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