Monte Carlo Simulation of Plasma Confinement in Mirror an Cusp Fields
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概要
- 論文の詳細を見る
Plasma Confinement times for mirror and cusp devices are investigated by usinga newly developed Momate Carlo simulation model which can include the effectsof binary collisions, arbitrary spatial change in the magnetic field, crnd externalelectric fields. For a mirror, the'simulation results are in good agr?:ement withtheory. For a cusp (wihtout an external electric field) the confineraent time isfound to be proportional to the plasma radius divided by the averztge velocity,which is approximately the same as the theoretical confinement tirne given byJ(aye et a/.
- 社団法人日本物理学会の論文
- 1980-07-15
著者
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Ohsawa Yukiharu
Institute Of Plasma Physics Nagoya University
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Kamimura Tetsuo
Institute Of Plasma Physics Nagoya University
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Kamimura Tetsuo
Institute Of Plasma Physics
関連論文
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- Particle Simulation Studies on Behaviour of Rapidly-Expanding High-Beta Plasma Column in a Uniform Magnetic Field
- Nonlinear Evolution of the Kink Ballooning Mode in a Toroidal Plasma
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- A Computer Simulation on Microinstabilities and Anomalous Resistivity near the Magnetic Neutral Sheet
- Anomalous Plasma Transport Due to Electron Temperature Gradient Instability
- Propagation of Nonlinear Ion Acoustic Wave with Generation of Long-Wavelength Waves
- An Asymptotic Method for the Vlasov Equation. : III. Transition from Amplitude Oscillation to Linear Landau Damping
- Monte Carlo Simulation of Plasma Confinement in Mirror an Cusp Fields
- Kinetic Effects on the Convective Plasma Diffusion and the Heat Transport
- Plasma Heating by a Magnetosonic Shock Wave through Resonant Ion Acceleration
- Stability to the High-Frequency Hot Electron Interchange Mode
- Production of Highly Relativistic Ions and Electrons by Quasi-Perpendicular Magnetosonic Shock Waves
- Resonant Ion Acceleration by Collisionless Magnetosonic Shock Wave Propagating Obliquely to a Magnetic Field
- Anomalous Plasma Transport due to Electron Temperature Gradient Instability
- Preface
- PLASMA HEATING BY A MAGNETOSONIC SHOCK WAVE THROUGH RESONANT ION ACCELERATION
- Nonlinear Magnetosonic Fast and Slow Waves in Finite β Plasmas and Associated Resonant Ion Acceleration
- Resonant Ion Acceleration by Collisionless Magnetosonic Shock Waves
- Relativistic Shock Wave
- Particle Reflection and Plasma Heating by a Laminar Magnetosonic Shock Wave
- Resonant Ion Acceleration by Oblique Magnetosonic Shock Wave in a Collisionless Plasma
- NON-STOCHASTIC PROMPT PROTON ACCELERATION BY FAST MAGNETOSONIC SHOCKS IN THE SOLAR PLASMA
- Simulation Studies on Stability of Hot Electron Plasma
- Theory for Resonant Ion Acceleration by Nonlinear Magnetosonic Fast and Slow Waves in Finite β Plasmas