Theory of Harmonic Generation in a Microwave Gaseous Plasma under an External Magnetic Field
スポンサーリンク
概要
- 論文の詳細を見る
Theoretical studies are made of the harmonic generation in a high frequency gaseous plasma under an external magnetic field on the basis of the Boltzmann equation. Expressions for the intensity of the higher harmonic radiations, especially of the second and the third, are derived and the results of their numerical calculation are graphically presented. These show that the higher harmonic radiations have sharp resonance peaks. The theory is compared with the experiment by Hill and Tetenbaum.
- 社団法人日本物理学会の論文
- 1967-03-05
著者
関連論文
- Experimental Studies of the Harmonic Radiation in a Microwave Gas Discharge at 34 GHz Frequency
- Experimental Studies of Harmonic Generation in a Microwave Gas Discharge at 55GHz Frequency
- Magnetohydrodynamic Equilibrium with Prolate Spheroidal Plasma-Vacuum Interface
- An Application of the Mercier Criterion to a Tokamak Plasma with an Elliptical Cross Section
- A Comprehensive Theory of the Equilibria in a Tokamak and a Reversed Field Pinch
- Stability Analysis of the Interchange Mode in a Reversed Field Pinch
- A Stability Analysis against the Interchange Mode of the Hill Vortex Model in a Field-Reversed Configuration
- Similarity Principle and Its Application to a High Frequency Gas Discharge Multiplier
- Equilibrium Configuration and Average Beta Values in a Reversed Field Pinch
- The F-Θ Diagram and Average Beta Values in an RFP Equilibrium
- An Application of the Taylor Theory to an Ideal MHD Plasma with Fluid Velocity
- Sufficient Criterion for MHD Stability of a Field-Reversed Configuration
- Theory of Harmonic Generation in a Microwave Gaseous Plasma under an External Magnetic Field
- An Equation for a Parametric Characteristic in a Gaseous Plasma
- Parametric Excitation in a Microwave Gas Discharge in a Magnetic Field
- Theory of Harmonic Generation in a Gaseous Plasma