Hatano J | Tokyo Univ. Sci. Chiba Jpn
スポンサーリンク
概要
関連著者
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Hatano Jun
Faculty Of Industrial Science And Technology Science University Of Tokyo
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Hatano Jun
Department Of Materials Science And Technology Science University Of Tokyo
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Futama Hideo
Faculty of Science University of Tokyo
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Hatano J
Tokyo Univ. Sci. Chiba Jpn
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Futama H
Sci. Univ. Tokyo Tokyo Jpn
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HATANO Jun
Department of Materials Science and Technology, Science University of Tokyo
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Hatano Jun
Department Of Applied Physics Faculty Of Science Science University Of Tokyo
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SUDA Fujio
Department of Resources and Environmental Sciences,School of Humanities and Culture,Tokai University
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FUTAMA Hideo
Department of Applied Physics,Faculty of Science,Science University of Tokyo
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Futama Hideo
Department Of Applied Physics Faculty Of Science Science University Of Tokyo
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Suda Fujio
Department Of Resources And Environmental Sciences School Of Humanities And Culture Tokai University
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Suda Fujio
Department Of Applied Physics Faculty Of Science Science University Of Tokyo
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Hatano Jun
Department Of Materials Science And Technology Faculty Of Science And Technology Science University
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Suda F
Univ. Reading Reading Gbr
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Aikawa Fumihiro
Chiba Institute OF Technology
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Aikawa F
Chiba Inst. Technol. Chiba Jpn
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Date Munehiro
Institute of Physical and Chemical Research
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Furukawa Takeo
Institute of Physical and Chemical Research
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AIKAWA Fumihiro
Department of Applied Physics,Faculty of Science,Science University of Tokyo
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HILCZER Bozena
Institute of Molecular Physics,Polish Academy of Sciences
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Hilczer Bozena
Institute Of Molecular Physics Polish Academy Of Sciences
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Hatano Jun
Faculty Of Industrial Science And Technology Tokyo University Of Science
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Furukawa T
Sci. Univ. Tokyo Tokyo Jpn
著作論文
- Pyroelectric Imaging on the Ferroelectric GASH[C (NH_2)_3Al (SO_4)_2・6H_2O]
- Spiral Patterns on Cleavage Surfaces of Ferroelectric Guanidinium Aluminum Sulfate Hexahydrate
- Domain Structures and Domain Wall Energies in Ferroelectric Guanidinium Aluminum Sulfate Hexahydrate
- Domain-Wall Orientations and Wall Energies in Ferroelectric Triglycine Selenate Crystals
- Improved Powder-Pattern Technique for Delineating Ferroelectric Domains