Numerical Investigation of Saturation Mechanism of the Dissipative Trapped Ion Instability
スポンサーリンク
概要
- 論文の詳細を見る
A set of model equations of the dissipative trapped ion instability is derived and solved numerically. Multiple time scale expansion scheme is applied to the non-linear fluid equations of Kadomtsev and Pogutse by taking μ=ω/ν_e as a small parameter, where ω is the frequency of the wave and ν_e is the effective collision frequency of the electrons. All the modes except for the linearly most unstable one die away due to the mode coupling. Final saturation of the mode is attributed to the modification of background trapped ion number density averaged over the poloidal direction. The coefficient of trapped ion anomalous diffusion, which scales as D∝ν_ia^2 (ν_i is the effective collision frequency of the ions and a is the minor radius of a torus) is also derived.
- 社団法人日本物理学会の論文
- 1981-11-15
著者
-
Hatayama Akiyoshi
Research Information Center Institute Of Plasma Physics Nagoya University:faculty Of Science And Eng
-
Hatayama Akiyoshi
Faculty Of Engineering Keio University
-
Ogasawara Masatada
Research Information Center Institute Of Plasma Physics Nagoya University:faculty Of Science And Eng
-
Ogasawara Masatada
Faculty Of Engineering Keio University
-
KOSHI Yuji
Faculty of Engineering, Keio University
-
Koshi Yuji
Research Information Center Institute Of Plasma Physics Nagoya University:faculty Of Science And Eng
-
Koshi Yuji
Faculty Of Engineering Keio University
関連論文
- Theoretical Study of the Electrostatic Lens Aberrations of a Negative Ion Accelerator for a Neutral Beam Injector
- Design of a Sawtooth-Free Plasma in an Inductively-Operated Pulsed Tokamak Reactor
- Radial Structure of Two-Stream Instability in Light Ion Beam
- Return Current in the Presence of Two-Stream Instability Due to Uniform Ion Beam Propagating in a Plasma
- Effects of Impurity Ions on the Anomalous Diffusion due to the Dissipative Trapped Ion Instability
- Effects of Impurity Ions on the Anomalous Diffusion due to the Dissipative Trapped Ion Instability
- Comparison of Weibel Instability and Magnetic Field Generating Thermal Instability
- Magnetic Field Generating Thermal Instability Including the Nernst Effect
- Hydrodynamic Effects on Field-Generating Thermal Instability in Laser-Heated Plasma
- Effect of Fast Plasma Flows on Volume Recombination including MAR in Detached Divertor Plasma(Gases, plasmas, electric discharges, and beams)
- Stabilization of Rayleigh-Taylor Instability due to the Spontaneous Magnetic Field in Laser Produced Plasma
- Electric Field Strength at the Head of a LIB Evaluated by Using a Theory of Hammer and Rostoker
- 1. On the Heat Flux Derived by the Moment Method in Lorentzian Plasma between Hot and Cold Walls (V. Plasma Characteristics (Electron))
- Enhancement of D-T Reaction Rate in Nonuniform Magnetoplasma
- Enhancement of D-T Reaction Rate due to D-T Contact
- Nonlinear Saturation of Dissipative Trapped Ion Instability and Anomalous Transport
- Nonlinear Stabilization of Dissipative Trapped Ion Instability
- Trapped-Ion Anomalous Diffusion Coefficient on the Basis of Single Mode Saturation
- Numerical Investigation of Saturation Mechanism of the Dissipative Trapped Ion Instability
- Mixing Length Hypothesis in the Dissipative Trapped Ion Instability
- Sum and Difference Frequency Generation in a Plasma by Two Nonuniform Electric Fields in the Presence of a Static Magnetic Field. II
- Effect of Beam Deceleration in the Two-Stream Instability
- Numerical Investigation of Saturation Mechanism of the Dissipative Trapped Ion Instability II
- Bounce Time Averaged Wave Potential and the Dissipative Trapped Ion Instability
- Analysis of Biasing Induced Divertor Asymmetry Using a Five-Point Model
- MAGNETIC-FIELD-GENERATING THERMAL INSTABILITY IN THE CASE OF ICF BY LIGHT ION BEAM
- Sum and Difference Frequency Generation in a Plasma by Two Nonuniform Electric Fields in the Presence of a Static Magnetic Field
- Effects of Temperature Relaxations on Waves in a Homogeneous Plasma
- ON THE GROWTH RATE OF RAYLEIGH-TAYLOR INSTABILITY AT THE DECELERATING SHOCK FRONT
- An Operator in the Cartesian Tensor Expansion of the Boltzmann Equation for a Magneto-Plasma
- Mechanism of Negative Ion Production in a Cesium Seeded Ion Source
- Estimation of Width of Electron Energy Loss Region in Cusp Magnetic Field in Negative Ion Sources