Production of Pulse Intense Ion Beam of the Current Density over a Hundred Times Larger than the Child-Langmuir Limit by Magnetieally-Insulated Ion Diode
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概要
- 論文の詳細を見る
An intense high-density pulsed proton beam (〜200 A/cm^2 at the anode surface, an energy of 〜80 keV, and a diode voltage pulse length of 500 ns) was produced by a cylindrical magnetically-insulated ion diode operated in the long-pulse mode. The ion current density was over 80-to 160-times larger than the Child-Langmuir limit on the anode flashboard. A measurement of the high-energy electrons leaked along the insulation magnetic field indicated that the actual diode gap was ≲2 mm while the gap length in a vacuum was 7.5 mm. The microwave emission (〜2.45 and 〜50 GHz) wascoincident with ion beam production. These observations suggest that the anode plasma expansion to the cathode during a long pulse and a virtual cathode movement towards the anode due to field fluctuations in the gap were responsible for a strongly enhanced ion beam generation.
- 社団法人応用物理学会の論文
- 1987-10-20
著者
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Nakagawa Yoshiro
Research Institute For Atomic Energy Osaka City University
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Ariyoshi T
Hitachi Ltd. Tokyo Jpn
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Ariyoshi Takeshi
Department Of Electrical Engineering Faculty Of Engineering Osaka City University
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NAKAGAWA Yoshiro
Research Institute for Atomic Energy, Osaka City University
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