KOBAYASHI Akio | Electrical Communication Laboratory
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概要
関連著者
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KOBAYASHI Akio
Electrical Communication Laboratory
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Sugiyama Koichi
Electrical Communication Laboratory
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Sato Shuichi
Department of Periodontology, Nihon University School of Dentistry
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KAWAJI Shinji
Department of Physics,Gakushuin University
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Sato Shuichi
Department Of Internal Medicine Ii Shimane Medical University
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Imai Tetsuji
Electrical Communication Laboratory Nippon Telegraph And Telephone Public Corporation
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Imai Tetsuji
Electrical Communication Laboratory
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Kawaji Shinji
Department Of Physics Faculty Of Science Gakushuin University:department Of Metallurgy Massachusetts
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Kawaji Shinji
Department Of Physics And Chemistry Gakushuin University
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Fujimoto Masatomo
Electrical Communication Laboratory
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Sato Shuichi
Department Of Physics Faculty Of Science Gakushuin University
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Oda Zenjiro
Electrical Communication Laboratory
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SATO Hidekichi
Electrical Communication Laboratory
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Uchida Masao
Electrical Communication Laboratory, Nippon Telegraph and Telephone Public Corporation
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Sato Hidekichi
Electrical Communication Laboratory Nippon Telegraph And Telephone Public Corporation
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Arata Hikaru
Electrical Communication Laboratory
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SATO Yasuo
Electrical Communication Laboratory
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Uchida Masao
Electrical Communication Laboratory Nippon Telegraph And Telephone Public Corporation
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Sato Shuichi
Department Of Gastroenterology And Hepatology Shimane University School Of Medicine
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Kobayashi Akio
Electrical Communication Laboratory Nippon Telegraph And Telephone Public Corporation
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Kobayashi A.
Electrical Communication Laboratory
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Sato Y.
Electrical Communication Laboratory
著作論文
- Deep Trap Levels in Silicon P-N Junctions
- Effect of Uniaxial Stress on Germanium p-n Junctions
- Properties of Surface Imperfections Produced on Germanium by Cleaning Treatments
- Piezoresistance and Magnetoresistance in Impurity Conduction of Germanium
- Piezoresistance in N-type Germanium at Low Temperatures
- Effects of Heat Treatment on Lead Telluride under Tellurium Pressure : Carrier Concentration Dependence of Mobility and Etch Pits on Worked Surfaces