Anomalous Effect of Small Collisions on the Nonlinear Interaction in a Small Cold Beam and a Warm Plasma System
スポンサーリンク
概要
- 論文の詳細を見る
It is found that a nonlinear wave-particle interaction based on the single wave model can be changed strongly by introducing small collisions into plasma electrons. These collisions are too small to change the linear stage. However, they alter the phase relation between the single wave and the trapped electrons in the nonlinear stage. As the result, the wave amplitude of the first minimum decreases anomalously and the persistent trapped-particle oscillations in collisionless case are destroyed.
- 核融合科学研究所の論文
著者
-
FUKUMASA Osamu
Department of Electronics, Kyoto University
-
ITATANI Ryohei
Department of Electronics, Kyoto University
-
Fukumasa Osamu
Department Of Electronics Kyoto University
-
Itatani Ryohei
Research Information Center Institute Of Plasma Physics Nagoya University:department Of Electronics
-
Fukumasa Osamu
Research Information Center, Institute of Plasma Physics, Nagoya University
-
Abe Hirotada
Research Information Center Institute Of Plasma Physics Nagoya University:(present Address) Departme
-
Fukumasa Osamu
Research Information Center Institute Of Plasma Physics Nagoya University:department Of Electrical E
-
Itatani Ryohei
Research Information Center Institute Of Plasma Physics Nagoya University
関連論文
- An Explanation of the Suppression of Instabilities by the Beam Modulation
- Suppression of Instabilities in a Beam-Plasma System by a Modulation of the Electron Beam
- Dependences of Amplitudes of Electron Waves and Growth Rates of Ion-Acoustic Waves on Boundary Conditions in a Beam-Plasma System
- Hydroxyapatite coating using DC plasma jet
- Continuous production of carbon nanostructures using plasma jet
- Diagnosis of Asymmetric Thermal Plasma Jet Using Computer Tomography Technique
- Measurement of a Three-Dimensional Distribution of Microwave Electric Field in Electron Cyclotron Resonance Plasmas
- Optimization of Volume Produced H^- Ions in a Low-Pressure Hydrogen Plasma
- Synthesis of β”-alumina from powder mixtures using thermal plasma processing
- Relationship between Control of Reactive Plasmas with Magnetic Filter and Formation of Thin Films
- Dispersion relations of ion acoustic waves in hydrogen plasmas
- Destruction of Magnetic Surfaces near a Separatrix of a Stellarator Attributed to Perturbations of Magnetic Fields
- Destruction of Magnetic Surfaces near a Separatrix of a Stellarator Attributed to Perturbations of Magnetic Fields
- Computer Simulation of RF-Confinement of Plasmas in an Open-Ended Toroidal Quadrupole
- High Order Spline Interpolations in the Particle Simulation
- High Order Spline Interpolations in the Particle Simulation
- Competition of Weakly Collisional and Neighboring Wave Effects for the Destruction of Amplitude Oscillations
- Computer simulation of nonlinear interaction between a cold beam and a weakly collisional plasma
- Anomalous Effect of Small Collisions on the Nonlinear Interaction in a Small Cold Beam and a Warm Plasma System
- The Properties of Collision in the Plasma Composed of the Finite-Sized Particles of 2-Species
- Stochastic Acceleration by an Electrostatic Wave near Ion Cyclotron Harmonics
- Positional Instabilities in a Tokamak with a Resistive Shell
- Positional Instabilities in a Shell-Less Tokamak
- Performance of Electron Cycrotron Resonance Plasma Produced by a New Microwave Launching System in a Multicusp Magnetic Field with Permanent Magnets
- Numerical Analysis on the Ion Species Ratios in a Steady State Hydrogen Plasma
- Particle Simulation on the Propagation and Plasma Heating of the Lower Hybrid Wave in the Nonuniform System
- Direct Comparison between Circularly and Linearly Polarized RF Field in ICRF Heating of a Toroidal Plasma
- Mechanism for ion heating by lower hybrid waves
- Propagation of Drift Waves in a Cylindrical Plasma
- Suppression of Beam-Excited Electron Waves by an Externally Applied RF Signal
- Deformation of the Electron Beam Distribution Function and Suppression of Electron Waves
- Numerical Study on the Interaction between a Modulated Electron Beam and a Plasma
- Energy and Momentum Deposition to Plasmas due to the Lower Hybrid Wave by a Finite Source