Kim Hong | Extreme Energy-density Res. Inst. Nagaoka Univ. Of Technol.
スポンサーリンク
概要
関連著者
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NIIHARA Koichi
Extreme Energy-Density Research Institute, Nagaoka University of Technology
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SUZUKI Tsuneo
Extreme Energy-Density Research Institute, Nagaoka University of Technology
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NAKAYAMA Tadachika
Extreme Energy-Density Research Institute, Nagaoka University of Technology
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SUEMATSU Hisayuki
Extreme Energy-Density Research Institute, Nagaoka University of Technology
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YOSHIMURA Takeshi
Department of Applied Materials Science, Graduate School of Engineering, Osaka Prefecture University
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Niihara Koichi
Extreme Energy-density Res. Inst. Nagaoka Univ. Of Technol.
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KIM Hong
Extreme Energy-Density Research Institute, Nagaoka University of Technology
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IMAKI Kazuyoshi
Extreme Energy-Density Research Institute, Nagaoka University of Technology
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Suzuki Tsuneo
Extreme Energy-density Res. Inst. Nagaoka Univ. Of Technol.
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Kim Hong
Extreme Energy-density Res. Inst. Nagaoka Univ. Of Technol.
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Nakayama Tadachika
Extreme Energy-density Research Institute Nagaoka University Of Technology
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Yoshimura Takeshi
Department Of Applied Materials Science Graduate School Of Engineering Osaka Prefecture University
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Suematsu Hisayuki
Extreme Energy-density Res. Inst. Nagaoka Univ. Of Technol.
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Imaki Kazuyoshi
Extreme Energy-density Res. Inst. Nagaoka Univ. Of Technol.
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末松 久幸
長岡技科大
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Suzuki T
Extreme Energy-density Res. Inst. Nagaoka Univ. Of Technol.
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YOSHIMURA Jun
Extreme Energy-Density Research Institute, Nagaoka University of Technology
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Hong Byung
Extreme Energy-Density Research Institute, Nagaoka University of Technology
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Yoshimura Takeshi
Dep. Of Physics And Electronics Graduate School Of Engineering Osaka Prefecture Univ.
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Yoshimura Jun
Extreme Energy-density Research Institute Nagaoka University Of Technology
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Niihara Kouichi
Extreme Energy-density Res. Inst. Nagaoka Univ. Of Technol.
著作論文
- Fabrication of the finestructured alumina materials with nanoimprint method
- Fine-structured ZnO patterns with sub-micrometer on the ceramic surface fabricated by a replication method