Add to ORKGWe describe an implementation of a particle orbit-following simulation approach to the Monte Carlo calculation of neoclassical transport coefficients which has been developed for application to the H-1NF Heliac. We compare and contrast some Monte Carlo transport coefficient estimators that can be used in such computer codes, from both physical and computational perspectives, and we make recommendations for their use. Transport coefficient calculations are performed for the H-1NF in conditions that will be available after the full National Facility upgrade
A Monte Carlo neoclassical transport code has been developed to solve for the equilibrium ambi-polar...
The physical algorithms implemented in the latest release of the general-purpose Monte Carlo code PE...
A neoclassical transport simulation code (FORTEC-3D) applicable to threedimensional configurations h...
A Monte Carlo method of evaluating typical particle and energy transport coefficients is given for t...
For tokamaks the Monte Carlo technique is a powerful method to study kinetic phenom-ena in plasmas...
This thesis is concerned with neoclassical transport in the H-1NF heliac, and contains an examinati...
The author presents a numerical and analytic assessment of the transport in two quasi-axially symmet...
Drift kinetic and gyrokinetic theories and simulations are powerful means for quantitative predictio...
Using PRETOR-Ste code a neoclassical transport study has been done for TJ-II, as well as for LHD dev...
The transport code ASTRA (an Automatic System for Transport Analysis in a Tokamak) was developed at ...
The Caucny problem for a drift kinetic equation is investigated in the paper aiming at the Monte Car...
The progress in a 3-dimensional, non-local neoclassical transport simulation code “FORTEC-3D” is des...
Methods for calculating neoclassical transport in the National Compact Stellarator Experiment (NCSX)...
"Recent Large Helical Device experiments show that the transport modeling based only on the fluid de...
Stellarator plasmas have a very complex geometry and so do the vacuum chambers of these devices. Tra...
A Monte Carlo neoclassical transport code has been developed to solve for the equilibrium ambi-polar...
The physical algorithms implemented in the latest release of the general-purpose Monte Carlo code PE...
A neoclassical transport simulation code (FORTEC-3D) applicable to threedimensional configurations h...
A Monte Carlo method of evaluating typical particle and energy transport coefficients is given for t...
For tokamaks the Monte Carlo technique is a powerful method to study kinetic phenom-ena in plasmas...
This thesis is concerned with neoclassical transport in the H-1NF heliac, and contains an examinati...
The author presents a numerical and analytic assessment of the transport in two quasi-axially symmet...
Drift kinetic and gyrokinetic theories and simulations are powerful means for quantitative predictio...
Using PRETOR-Ste code a neoclassical transport study has been done for TJ-II, as well as for LHD dev...
The transport code ASTRA (an Automatic System for Transport Analysis in a Tokamak) was developed at ...
The Caucny problem for a drift kinetic equation is investigated in the paper aiming at the Monte Car...
The progress in a 3-dimensional, non-local neoclassical transport simulation code “FORTEC-3D” is des...
Methods for calculating neoclassical transport in the National Compact Stellarator Experiment (NCSX)...
"Recent Large Helical Device experiments show that the transport modeling based only on the fluid de...
Stellarator plasmas have a very complex geometry and so do the vacuum chambers of these devices. Tra...
A Monte Carlo neoclassical transport code has been developed to solve for the equilibrium ambi-polar...
The physical algorithms implemented in the latest release of the general-purpose Monte Carlo code PE...
A neoclassical transport simulation code (FORTEC-3D) applicable to threedimensional configurations h...