Plasma Heating in the TP-M Device by the Injection of a Spiraling Electron Beam

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概要

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• The interaction of a spiraling electron beam with an inhomogeneous magnetoplasma is studied experimentally in the Nagoya TP-M device. There appears strongly an azimuthal stream of electrons (i.e., crossfield current), which excites electrostatic instabilities near the lower-hybrid frequency and the ion-cyclotron frequency. Corresponding to the growth of these instabilities, plasma heating takes place rapidly. The heating may be interpreted may be interpreted as the crossfield-current-driven lower-hybrid turbulent heating.

• 社団法人日本物理学会の論文
• 1976-09-15

著者

• Yatsui Kiyoshi

  Institute Of Plasma Physics Nagoya University:department Of Electrical Engineering Osaka University

• Aihara Shuko

  Institute Of Plasma Physics Nagoya University

• Yatsuzuka Mitsuyasu

  Institute Of Plasma Physics Nagoya University:department Of Electrical Engineering Himeji Institute

関連論文

• Microwave Diagnostics for the Measurement of Plasma Density in a Cylindrical Metal Vessel
• Interactions between Ion Waves and a High-Frequency Electric Field
• Plasma Heating in the TP-M Device by the Injection of a Spiraling Electron Beam

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