Effect of Dielectric Material on Slow-Surface Wave Propagation in a Solid-Plasma Waveguide
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概要
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The slow-surface wave propagation characteristics in a transversely-magnetized three-layer plasma waveguide containing solid-plasma material, dielectric slab, and vacuum gap, have been theoretically analyzed and numerically calculated in the frequency region of 70 GHz. The results show that, by employing a dielectric material with a suitable permittivity, slow-surface wave resonance is realized at a very low magnetic field, and that reduction of the propagation velocity is also expected for a particular propagation mode. By experimental studies using n-type InSb at 77 K and teflon slab, the decrease in the resonant magnetic field and propagation wavelength has been confirmed. The results are in quantitative agreement with the theoretical predictions. The effect of the vacuum gap has been studied as well.
- 社団法人応用物理学会の論文
- 1979-03-05
著者
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Obunai Tetsuo
Department Of Electrical And Electronic Engineering Faculty Of Engineering And Research Science Akit
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Kusanagi Masaya
Department Of Electronic Engineering Faculty Of Mining Akita Unviersity:(present Address)nitto Tsush
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HIKAGE Kazuhiro
Department of Electronic Engineering, Faculty of Mining, Akita University
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Hikage Kazuhiro
Department Of Electronic Engineering Faculty Of Mining Akita University:(present Address)japan National Railway
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