LOMEGA : A Low Frequency, Field Implicit Method for Plasma Simulation
スポンサーリンク
概要
- 論文の詳細を見る
Field implicit methods for low frequency plasma simulation by the LOMEGA (Low OMEGA) codes are described. These implicit field methods may be combined with particle pushing algorithms using either Lorentz force or guiding center force models to study two-dimensional, magnetized, electrostatic plasmas. Numerical results for ω_eδt>>1 are described.
- 核融合科学研究所の論文
著者
-
Barnes D.
Research Information Center Institute Of Plasma Physics Nagoya University:institute For Fusion Studi
-
Barnes D.
Research Information Center Institute Of Plasma Physics Nagoya University:institute For Fusion Studi
-
Kamimura T.
Research Information Center, Institute of Plasma Physics, Nagoya University
関連論文
- Stochasticity and Symmetry of the Standard Map
- NONLINEAR SELF-MODULATION OF ION-ACOUSTIC WAVES
- EXPERIMENTAL STUDIES ON PLASMA CONFINEMENT IN NAGOYA BUMPY TORUS
- NON-CIRCULAR BUMPY TORUS
- PLASMA CONFINEMENT IN ECH BUMPY TORUS
- NBT-1M DESIGN REPORT
- ENERGETIC PARTICLE STABILIZATION OF BALLOONING MODES IN A FINITE-ASPECT-RATIO TOKAMAK
- Kinetic Effects on the Convective Plasma Diffusion and the Heat Transport
- LOMEGA : A Low Frequency, Field Implicit Method for Plasma Simulation
- LAMINAR ELECTROSTATIC SHOCK WAVES GENERATED BY AN ION-BEAM
- Stochastic Motion of Particles in Tandem Mirror Devices
- TRANSPORT STUDIES OF ECH HEATED BUMPY TORUS PLASMAS
- Equilibria of the High-β Tokamak and Nonlinear Evolution of the m=1 Kink Ballooning Mode
- Nonlinear Evolution of the Resistive MHD Modes and Sawtooth Oscillation in a Toroidal Plasma
- On Boundary Conditions for a Simulation Plasma in a Magnetic Field
- Two Dimensional Behavior of Solitons in a Low-β Plasma with Convective Motion