Parametric Coupling of Two Langmuir Waves in an Inhomogeneous Plasma. III. : Wave Trapping by a Density Cavity
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概要
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On the basis of the W.K.B. method, it is shown that an inverse triangle density cavity can trap a pair of temporally growing, opposistely propagating electron Langmuir waves; these are parametrically coupled through a combined action of a density gradient inside the cavity and a high-frequency pump electric field which is uniform outside the cavity. The threshold value of the pump intensity for this decay instability is presented as a monotonously increasing function of the scale size of the trapping regions, the mode number, the Debye length, and the minimum threshold above which the decay instability of the convective-type sets in. Consideration of the electron ponderomotive force created by the intense pump field which is non-uniform inside the density cavity leads to a decrease of the density gradient, resulting in an appearance of the upper threshold above which the trapped waves are damped.
- 社団法人日本物理学会の論文
- 1976-09-15
著者
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Ikemura Tsutomu
Department Of General Education Hannan University
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Ikemura Tsutomu
Department Of Physics Faculty Of Science Kyoto University:department Of General Education Hannan Uni
関連論文
- Two Langmuir Wave Parametric Decay Instability Driven and Trapped by a Self-Trapped Electromagnetic Pump
- Parametric Coupling of Langmuir Waves in an Inhomogeneous Plasma
- Parametric Coupling of Two Langmuir Waves in an Inhomogeneous Plasma. III. : Wave Trapping by a Density Cavity
- Generation of Harmonics of the Plasma Waves Excited near Electron Cyclotron Harmonics
- Parametric Coupling of Two Langmuir Waves in an Inhomogeneous Plasma, : II.Stabilizing Effects Due to the Ponderomotive Force Created by an Intense Pump Field