Kinetic Equation for a Classical Nonideal Plasma
スポンサーリンク
概要
- 論文の詳細を見る
The Balescu-Lenard theory of plasma kinetic equation is reformulated in such a way that the resulting collision term now conserves the sum of the kinetic and potential energy to the first order in the plasma parameter. The new collision term is expressed in terms of the instantaneous values of the single-particle distribution function and its first derivative in time.
- 理論物理学刊行会の論文
- 1973-10-25
著者
-
Ichimaru Setsuo
Department Of Nuclear Engineering University Of Tokyo
-
SHIBATA Masakazu
Department of Physics, University of Tokyo
-
Shibata Masakazu
Department Of Physics University Of Tokyo
関連論文
- Dielectric Response Function of Electron Liquids. II : Static Properties
- Sum-Rule Analysis of Long-Wavelength Excitations in Electron Liquids
- Dielectric Response Function of Electron Liquids. III : Numerical Investigation of Static Properties
- Electromagnetic Radiation Arising from Nonlinear Coupling between Longitudinal Excitations in Plasmas
- Theory of Surface Collective Modes in Semi-Infinite Plasmas
- Interpretation of Plasma Radiation Experiments from Tunnel Junctions
- Radiation from Longitudinal Excitations in a Semi-Infinite Plasma
- Rates of Nuclear Fusion in Metal Hydrides
- Statistical-Mechanical Theory of Cold Nuclear Fusion in Metal Hydrides
- Evolution of Microscopic Bond-Orientational Order at Freezing Transitions in Supercooled One-Component Plasmas
- Observation of Freezing Transition in a Rapidly Supercooled Classical One-Component Plasma
- Plasma Theory of Scorpius X-1 : Magnetohydrodynamic and Optical Analyses
- Numerical Examination of the Modified Convolution-Approximation Scheme for Classical One-Component Plasmas
- Thermodynamics and Correlational Properties of Finite-Temperature Electron Liquids in the Singwi-Tosi-Land-Sjolander Approximation
- Comment on Kono and Yajima's Calculation of the Dispersion Relation of the Ion-Acoutic Wave in a Turbulent Plasma
- Screening Effect of Degenerate Electron Background in High Dendity Plasms.III.Local Field Correction Due to Electron Interaction
- Screening Effect of Degenerate Electron Background in High Density Plasmas. II. Electric Resistivity
- Screening Effect of Degenerate Electron Background in High Density Plasmas. I. Thermodynamic Properties
- Stopping Power of Degenerate Electron Liquid at Metallic Densities
- Contributions of the Second Order Exchange Diagrams to Local Field Corrections in Electron Liquids
- Ion-Density Correlations and Enhancement of Thermonuclear Reaction Rate in Dense,Inertially Confined Fusion Plasmas
- Sum Rule and Hydrodynamic Analyses of the Velocity Autocorrelation Function in Strongly Coupled Plasmas
- Dynamic Evolution of Fusion Processes in Ultrahigh-Pressure Liquid-Metallic Hydrogen : Effects of Self-Heating and Radiative Cooling
- Kinetic Equation and Shear Viscosity of the Electron Liquid
- Metal-Insulator Transitions in Dense Hydrogen : Equations of State,Phase Diagrams and Interpretation of Shock-Compression Experiments
- Kinetic Equation for a Classical Nonideal Plasma
- Wigner Crystallization and the Onset of a Charge-Density-Wave Instability in Strongly Coupled, Classical, One-Component Plasma
- Local Field Effect in Strongly Coupled, Classical One-Component Plasma
- Theory of Plasma Heating by Fluctuating Electric Fields : Effects of Correlation Times
- Hydrodynamic Fluctuations and Correlations of a Plasma in a Magnetic Field
- STATISTICAL PHYSICS OF DENSE PLASMAS : GENERALIZED VISCOELASTIC THEORY OF THE GLASS TRANSITION
- Enhanced Pycnonuclear Reactions in Ultrahigh-Pressure Metals
- Anomalous Resistivity and Level of Turbulence Associated with the Buneman Instability in a Plasma
- Hydrodynamic Fluctuations and Correlations in a Plasma
- Magnetic Susceptibility of Bloch Electrons in a Dielectric Formulation
- Kinetic Theory of a Free-Electron Laser; Radiative Processes in Relativistic Plasmas
- Theory of Classical and Anomalous Diffusion of a Plasma across a Magnetic Field
- Theory of Anomalous Resistivity and Turbulent Heating in Plasmas
- Thermodynamic Enhancement of Nuclear Reactions in Dense Stellar Matter
- Ion-Density Correlations and Enhancement of Thermonuclear Reaction Rate in Dense, Inertially Confined Fusion Plasmas
- Cold Nuclear Fusion in Pressurized Liquid Metals