Experimental Study of Diffusion Across Magnetic Field and Flute Instability in a Q-Machine Plasma
スポンサーリンク
概要
- 論文の詳細を見る
The purpose of this paper is to experimentally study diffusion in a region of strong electric field in relation to flute instability. The experiment is carried out in a single-ended Q-machine with a strong electric field in the peripheral region. The measured actual diffusion flux divided by density Г_<exp>(r)/n_0(r) is compared with the theoretical anomalous diffusion flux divided by density Г_<an>(r)/n_0(r) calculated with the amplitudes and phases of the observed normal mode flute instability. They are similar in r-(radial) dependence, but different in absolute value, i. e. they are much larger in the peripheral region than in the central region. The absolute value of Г_<an>/no is about 10^<-1> times as large as that of Г_<exp>/n_0>.
- 大同工業大学の論文
著者
-
HIOKI Yoshiaki
Daido Institute of Technology
-
Hioki Yoshiaki
大同工業大学
-
Hioki Y
Daido Institute Of Technology
関連論文
- Ionization Mechanism of Cesium Plasma Produced by Irradiation of Dye Laser
- Length of Laser-Produced Dense Plasma in High Pressure Argon Gases
- Al, Cu and W Oxide Fine Particles Produced by Discharge Explosions
- Simulation of Ion Motion in a Q-Machine Plasma with a Strong Radial Electric Field and Flute Instability
- The Printing Mask for Electron Diffraction Photographs
- Simulation of Ion Motion in a Q-Machine Plasma with a Strong Radial Electric Field and Flute Instability
- The Printing Mask for Electron Diffraction Photographs
- Control of Plasma Potential Distribution with an Electron Emissive Limiter in a Q-Machine
- Control of Plasma Potential with an Electron Emissive Grid in a Q-Machine
- Experimental Study of Diffusion Across Magnetic Field and Flute Instability in a Q-Machine Plasma
- Excitation and Nonlinear Phenomena of Flute Instability in a Q-Machine Plasma