Transport Properties of Plasmas in a Strong Magnetic Field

スポンサーリンク

概要

• 論文の詳細を見る

• Irreversible processes in plasmas in a strong magnetic field are discussed from both phenomenological and microscopic points of view. The thermodynamics of irreversible processes is applied and it is shown that the Onsager-Casimir reciprocity relation takes a symmetrical form for plasmas in a magnetic field. For a two-component fully ionized gas where the electrons make many free gyrations interference between electrical and thermal conductions vanish. When the mean gyration radius γ_g of the electrons is shorter than the Debye length l_p, the diagonal elements of tensors of the electric conductivity and diffusion coefficient perpendicular to the magnetic field are proportional to ln(kTl_D/Ze^2) + (3/4)[ln(l_D/γ_g)]^2, where Ze and -e are the charges of an ion and electron respectively.

• 社団法人日本物理学会の論文
• 1960-06-05

著者

• KANEKO Shobu

  Department of Applied Physics,Faculty of Engineering The University of Tokyo

• Kaneko Shobu

  Department Of Applied Physics Faculty Of Engineering The University Of Tokyo

• KIHARA Taro

  Department of Physics, Faculty of Science, University of Tokyo

• MIDZUNO Yukio

  Department of Physics, Faculty of Science, University of Tokyo

• Midzuno Yukio

  Department Of Physics Faculty Of Science University Of Tokyo

• Kihara Taro

  Department Of Physics Faculity Of Science University Of Tokyo

関連論文

• Magnetohydrodynamic Stability of Spheromak Plasma in Toroidal Flux Conserver with Rectangular Cross Section.II.Application of Mercier Criterion
• Magnetohydrodynamic Stability of Spheromak Plasma in Toroidal Flux Conserver with Rectangular Cross Section. II. Application of Mercier Criterion
• Magnetohydrodynamic Stability of Spheromak Plasma in Toroidal Flux Conserver with Rectangular Cross Section
• Magnetohydrodynamic Equilibrium and Stability of Spheromak Plasma in Flux Conserver
• Magnetohydrodynamic Equilibrium and Stability of Spheromak Plasma in Flux Conserver
• Ion-Electron Relaxation of Plasmas in a Magnetic Field, II
• Stability Analysis of Spheromak by ERATO-J Code against Internal Modes
• Stability of Force-Free Spheromak Plasma in Spheroidal Flux Conserver
• Viscosity Coefficients of a Plasma in a Strong Magnetic Field : Application of the Quantum Mechanical Unified Theory
• The Maximum Disturbance Growth Rate for an Unstable Plasma Column
• Necessary and Sufficient Condition for Hydromagnetic Stability of the Bennett Pinch. II. : Finite-Radius Pinch
• Transport Coefficients of Plasmas in a Magnetic Field
• Necessary and Sufficient Condition for Hydromagnetic Stability of the Bennett Pinch. : III. Reverse B_z Pinch
• Oscillator Strength Sums and van der Waals Constants of Closed Shell Atoms from the Hartree-Fock Wave Functions
• Second Virial Coefficient of Helium from the Square-well Potential
• Complementary Variational Principles on Electrical Conductivities of a Plasma in a Unifrom Magnetic Field
• Necessary and Sufficient Condition for Hydromagnetic Stability of the Bennett Pinch
• Thermal Conductivities and Coefficients of Thermal Diffusion of a High-Temperature Plasma in a Uniform Magnetic Field
• Magnetohydrodynamic Stability of Spheromak Plasma in Toroidal Flux Conserver with Rectangular Cross Section III Stability for Symmetric Modes
• Magnetohydrodynamic Equilibrium and Stability of Spheromak by Boundary-Fitted Curvilinear Coordinate System-Improvement of Plasma Confinement by External Coil-
• Magnetohydrodynamic Equilibrium and Stability of Spheromak by Boundary-Fitted Curvilinear Coordinate System : Improvement of Plasma Confinement by External Coil
• Magnetohydrodynamic Stability pd Spheromak Palsma ib Spheroidal Flux Vonxernver-Application of Mercier Criterion-
• Magnetohydrodynamic Equilibrium and Stability of Spheromak with Spheroidal Plasma-Vacuum Interface
• Magnetohydrodynamic Equilibrium and Stability of Spheromak with Spheroidal Plasma-Vacuum Interface
• Temperature Variation of Mayer's Cluster Integrals
• Transport Properties of Plasmas in a Strong Magnetic Field
• Virial Coefficients and Intermolecular Potential for Small Nonspherical Molecules
• Magnetohydrodynamic Equilibrium with Spheroidal Plasma-Vacuum Interface : Compact Toroid without Toroidal Magnetic Field
• Magnetohydrodynamic Equilibrium with Prolate Spheroidal Plasma-Vacuum Interface
• Magnetohydrodynamic Equilibrium Comfiguration by Body-Fitted Curvilinear Coordinate System : Application to Spheromak
• Electric Dipole Polarizabilities and Dipole Shielding Factors of Neon, Magnesium and Argon Atoms from the Hartree-Fock Wave Functions
• Virial Coefficients and Intermolecular Potential of Helium
• Statistics of Two-Dimensional Lattices with Many Components
• Scattering of Microwaves from a Cylindrical Plasma in the Born Approximation III.
• Scattering of Microwaves form a Cylindrical Plasma in the Born Approximation. II.
• Non-additive Intermolecular Potential in Gases : I. van der Waals Interactions
• Magnetohydrodynamic Stability of Spheromak Plasma in Toroidal Flux Conserver with Rectangular Cross Section III. Stability for Symmetric Modes
• Stability of Spheroidal Spheromak Plasma by use of Force-Free Approximation
• Energy Loss by a Sequence of Fast Charges in a Plasma
• Unified Theory of Relaxations in Plasmas, I. Basic Theorem
• Unified Theory of Relaxations in Plasmas : II. Applications
• Confirmation of the Existence of a Helium Double-Molecule
• Unified Theory of Relaxations in Plasmas.III. : Quantum Effects
• The Second Virial Coefficient of Non-Spherical Molecules.
• Van der Waals-Lifshitz Forces of Spheroidal Particles in a Liquid
• Fluctuations in a Plasma III : Effect of the Magnetic Field on the Stopping Power
• Ion-Electron Relaxation of Plasmas in a Strong Magnetic Field : I
• Magnetohydrostatic Equilibrium for Plasma in a Torus Tube
• Determination of Intermolecular Forces from the Equation of State of Gases. II.
• Non-additive Intermolecular Potential in Gases : II. Cluster Integrals
• Externally Pinched Plasma
• Thermodynamic Foundation of the Theory of Plasma
• Convex-Core Model of Molecules in Crystalline State
• On the Coefficients of Irreversible Processes in a Highly Ionized Gas
• Macroscopic Foundation of Plasma Dynamics
• Convex Molecules in Non-Uniform Gases : Supplement
• Second Virial Coefficient between Unlike Molecules
• Electrical Polarizabilities of Rare Gas Atoms by the Hartree-Fock Wave Functions
• Viscosity Coefficient of a Plasma in a Magnetic Field
• Transport Coefficients of a Magnetoplasma in an Alternating Electric Field
• Crystal Structures and Intermolecular Forces of Rare Gases
• Geometrical Theory of Convex Molecules in Non-Uniform Gases
• Scattering of Microwaves from a Cylindrical Plasma in the Bornn Approximation. I
• Eddy Current Measurement on a Noncircular Model Shell
• Intermolecular Forces for Polyatomic Molecules
• On Isihara-Hayashida's Theory of the Second Virial Coefficient for Rigid Convex Molecules

もっと見る 閉じる

スポンサーリンク