Electromagnetic Radiation from Electron Plasma
スポンサーリンク
概要
- 論文の詳細を見る
Theory of plasma oscillation developed by Bohm and Pines is extended to involve the coupling between longitudinal and transverse oscillations. The coupling arises from the quantum fluctuation of electrons interacting with electromagnetic field. The coupling energy is found to be 〓kv approximately, where 〓k represents the recoil momentum of an electron due to the absorption(emission)of a longitudinal quantum with wave number k and v the velocity of the electron. This coupling may account for the solar outburst of radio waves, if the plasma oscillation is excited in a stream of electrons injected into corona with high velocity.
- 理論物理学刊行会の論文
著者
-
Hayakawa Satio
Research Institute For Fundamental Physics Kyoto University
-
Hokkyo Noboru
Department Of Physics Osaka City University
-
Hayakawa Satio
Research Information Center Institute Of Plasma Physics Nagoya University
-
HOKKYO Noboru
Department of Physics, Osaka City University
関連論文
- Inelastic Scattering of Neutrons by Rotational Excitation
- Oxygen Transport and Line Emissions in a Tokamak Plasma
- Nuclear Reactions at Moderate Energies and Fermi Gas Model
- Energy Loss of a Charged Particle Traversing Superconductors
- Energy Loss of a Charged Particle Traversing Ionized Gas and Injection Energies of Cosmic Rays
- Helium Capturing Reactions in Stars
- Origin of Cosmic Rays
- Positive Temperature Effect of Cosmic Rays
- Interpretation of the Optical Model in Nuclear Reactions
- Electromagnetic Radiation from Electron Plasma
- Measurement of the Excitation Function of N^+_2 First Negative Bands by Electron Impact
- Neutrino and Gravity
- Origin of Cosmic Rays Revealed in the Rigidity Spectrum of Primary Particles
- Relation between the Nuclear Collective Model and the Individual Particle Model with Configurational Mixing
- A Possible Effect of Cosmic Rays on Celestial Chemical Composition
- Supernova Origin of Cosmic Rays
- A Possible Effect of Cosmic Rays on Celestial Chemical Composition