Obunai Tetsuo | Department Of Electronic Engineering Faculty Of Mining Akita University
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概要
関連著者
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Obunai Tetsuo
Department Of Electronic Engineering Faculty Of Mining Akita University
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Obunai Tetsuo
Department Of Electrical And Electronic Engineering Faculty Of Engineering And Research Science Akit
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OBUNAI Tetsuo
Department of Electrical and Electronic Engineering, Faculty of Engineering and Research Science, Ak
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Obunai T
Akita Univ. Akita Jpn
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Kosaka Satoru
Department of Neuroscience, Osaka City University Medical School
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Kosaka S
Akita Univ. Akita Jpn
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Kosaka Satoru
Department Of Neuroscience Osaka City University Medical School
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Kosaka Satoru
Department Of Electrical And Electronic Engineering Faculty Of Engineering And Research Science Akit
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YODOKAWA Shinichi
Department of Electrical and Electronic Engineering, Faculty of Engineering and Resource Science, Ak
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Yodokawa S
Akita Univ. Akita Jpn
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Yodokawa Shinichi
Department of Electrical and Electronic Engineering, Faculty of Engineering and Research Science, Akita University
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AKIMOTO Masato
Department of Urology, Nippon Medical School
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Horiuchi Masayuki
Department of Applied Chemistry, Faculty of Engineering, Doshisha University
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Akimoto Masato
Department Of Electronic Engineering Faculty Of Mining Akita University
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HORIUCHI Masayuki
Research Institute for Production Development
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DOBASHI Yoshihiro
Department of Electronic Engineering, Faculty of Mining, Akita University
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Ishizuka Takehiko
Department Of Electrical And Electronic Engineering Faculty Of Mining Akita University:(present Addr
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Ishizuka Takehiko
Department Of Electrical And Electronic Engineering Faculty Of Mining Akita University:(present Addr
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Dobashi Yoshihiro
Department Of Electronic Engineering Faculty Of Mining Akita University
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Horiuchi Masayuki
Department Of Electronic Engineering Faculty Of Mining Akita University
著作論文
- Possibility of Submillimeter Slow Surface Wave Resonance in a Two-Layer Parallel-Plate Waveguide Containing n-Type or p-Type InSb Slab
- Seventy GHz Slow Surface Wave Propagation in a Waveguide Containing Transversely Magnetized p-Type and n-Type InSb Slabs
- Millimeter-Wave Nonreciprocity in Dielectric Imageguide Containing Solid-State Magneto-Plasma Slab
- Propagation Characteristics in a Transversely Magnetized 70 GHz Waveguide Containing a p-InSb Stab Carrying an Applied Current
- Magnetic-Field Dependence of Transmission Characteristics of E-Band Waveguide Containing a Current-Applied n-InSb Slab