FLATISCHLER Kurt | Tokyo Institute of Technology, Department of Textile and Polymeric Materials
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概要
関連著者
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Kondo Katsumi
Tokyo Institute Of Technology Department Of Textile And Polymeric Materials
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Kondo K
Hitachi Ltd. Ibaraki
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TAKEZOE Hideo
Tokyo Institute of Technology, Department of Organic and Polymeric Materials
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FUKUDA Atsuo
Tokyo Institute of Technology, Department of Organic and Polymeric Materials
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KUZE Eiichi
Tokyo Institute of Technology, Department of Textile and Polymeric Materials
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FLATISCHLER Kurt
Tokyo Institute of Technology, Department of Textile and Polymeric Materials
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SKARP Kent
Tokyo Institute of Technology, Department of Textile and Polymeric Materials
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Takezoe Hideo
Tokyo Institute Of Technology Department Of Organic And Polymeric Materials
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Skarp Kent
Chalmers University Of Technology Physics Department
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Fukuda Asuo
Department Of Kansei Engineering Faculty Of Textile Science And Technology Shinshu University
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Kuze Eiichi
Tokyo Institute Of Technology Department Of Textile And Polymeric Materials
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Kondo Katsumi
Tokyo Institute Of Technology Department Of Organic And Polymeric Materials
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Fukuda Atsuo
Tokyo Institute Of Technology Department Of Bioengineering
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Flatischler Kurt
Tokyo Institute Of Technology Department Of Textile And Polymeric Materials:chalmers University Of T
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Miyasato Keita
Nagasaki University Faculty Of Liberal Arts
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SATO Yuzuru
Tokyo Institute of Technology, Department of Textile and Polymeric Materials
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MIYASATO Keita
Tokyo Institute of Technology, Department of Textile and Polymeric Materials
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Sato Y
Nagaoka Univ. Technol. Nagaoka Jpn
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Sato Yuzuru
Seiko Epson Corp. Research And Development Div.
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Sato Y
Department Of Metallurgy Graduate School Of Engineering Tohoku University
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Sato Y
Ntt Microsystem Integration Laboratories
著作論文
- Surface-Induced Helix-Unwinding Process in Thin Homogeneous Ferroelectric Smectic Cells of DOBAMBC
- Helical Pitches and Tilt Angles in Room Temperature Ferroelectric Chiral Smectic C Liquid Crystals, MORA n and MBRA n
- Magnetic Field Effects on Preparing Thin Homogeneous Ferroelectric Smectic Cells for Electro-Optical Microsecond Switches