Kingetsu Toshiki | Advanced Materials Research Laboratories Nisshin Steel Co. Ltd.
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概要
関連著者
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Kingetsu Toshiki
Advanced Materials Research Laboratories Nisshin Steel Co. Ltd.
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Kingetsu Toshiki
Advanced Materials Research Laboratories Nisshin Steel Company Ltd.
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Yamamoto Masahiko
Department Of Biofunctional Chemistry Graduate School Of Natural Science And Technology Okayama Univ
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YAMAMOTO Masahiko
Department of Materials Science and Engineering, Graduate School of Engineering, Osaka University
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山本 雅彦
阪大工
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Yamamoto Masanobu
Sony Corp. Tokyo Jpn
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Kingetsu T
Steel & Technology Development Laboratories Nisshin Steel Co. Ltd.
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Kingetsu Toshiki
Department Of Materials Science And Engineering Faculty Of Engineering Osaka University
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Yamamoto M
Ntt System Electrics Lab. Kanagawa Jpn
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NISHIKAWA Kouichi
Department of Materials Science and Engineering, Osaka University
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Yoshizaki Fukio
Advanced Materials Research Laboratories Nisshin Steel Co. Ltd.
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西川 恵子
千葉大学大学院融合科学研究科
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西川 恵子
千葉大
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山本 雅彦
大阪大学 大学院工学研究科 マテリアル生産科学専攻
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KAMADA Yasuhiro
Department of Materials Science and Engineering, Osaka University
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Kamada Yasuhiro
Department Of Anesthesia Nikko Memorial Hospital
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Kingetsu T
Nisshin Steel Co. Ltd. Chiba Jpn
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Kingetsu Toshiki
Advanced Materials Research Laboratories Nisshin Steel Company Ltd.:(present Address) X-ray Research
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Kingetsu Toshiki
Advanced Materials Research Laboratories Nisshin Steel Co. Ltd.:(present Address) Japan Ultra-high T
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Kingetsu Toshiki
Advanced Materials Research Laboratories Nissin Steel Co. Ltd.:(present Address) Japan Ultra-high Te
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Kingetsu Toshiki
Advanced Materials Research Laboratories Nisshin Steel Company Ltd.:(present Address) Japan Ultra-hi
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Kingetsu Toshiki
Advanced Materials Research Laboratories Nisshin Steel Co. Ltd.:(present) Steel & Technology Dev
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Kasai Hitoshi
Department of Materials Science and Engineering
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HAYASAKI Hiroshi
Department of Materials Science and Engineering, Osaka University
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ICHIMIYA Katsuyuki
Department of Materials Science and Engineering, Osaka University
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UMETANI Yukihiro
Matsushita Technoresearch Inc.
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KURUMIZAWA Toshimitsu
Matsushita Technoresearch Inc.
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Ichimiya Katsuyuki
Department Of Materials Science And Engineering Osaka University
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Kingetsu Toshiki
Advanced Materials Research Laboratories Nisshin Steel Co. Ltd.:(present Address)japan Ultra-high Te
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Kurumizawa T
Matsushita Technoresearch Inc.
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YOSHIZAKI Fukio
Advanced Materials Research Laboratories, Nisshin Steel Co. Ltd.
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Yoshizaki F
Advanced Materials Research Laboratories Nisshin Steel Co. Ltd.:(present Address)surface Treatment D
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Yoshizaki Fukio
Advanced Materials Research Laboratories Nisshin Steel Co. Ltd.:(present Address) Surface Treatment
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Hayasaki Hiroshi
Department of Materials Science and Engineering, Osaka University, Suita, Osaka 565, Japan
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Kingetsu Toshiki
Advanced Materials Research Laboratories, Nisshin Steel Company Ltd., Ichikawa, Chiba 272, Japan
著作論文
- Large Magnetic Interface Anisotropy in Molecular Beam Epitaxy Grown Pt/Co and Pt/Co/Ag Superlattices
- Structure and Magnetic Properties of [Ag/Ni/Au] and [Au/Ni/Ag] Superlattices
- Dependence of Coercivity on Co Layer Thickness in (111)Pd/Co Superlattices Grown by Molecular-Beam Epitaxy
- Scanning Tunneling Microscopy and Atomic Force Microscopy Study on Interface between Molecular-Beam-Grown Pt Film and Si (111) Substrate
- Scanning Tunneling Microscope and Atomic Force Microscope Observation of Topography of Molecular-Bearm-Epitaxy-Grown Pt Films on Cu Buffer Layer and Si(111)-(7×7) Substrate
- Phenomenological Approach to the Dependence of Magnetic Anisotropy on Co Layer Thickness in Epitaxial Au/Co and Au/Co/Ag Superlattices
- Preparation of Epitaxial Au/Co Superlattices with High Perpendicular Magnetic Remanence by Molecular Beam Epitaxy
- Dependences of Coercivity and Remanence on Co Layer Thickness in (111)Pt/Co and Pt/Co/Ag Superlattices
- Growth of Epitaxial Co/Cu Superlattices with Surface Orientations of (111), (100) and (110) by DC Magnetron Sputtering
- Dependence of Magnetoresistance and Antiferromagnetic Coupling on Preparation Conditions in Epitaxial (100)Co/Cu Superlattices
- Dependence of Magnetoresistance and Antiferromagnetic Coupling on Growth Orientation and Interface Roughness in Epitaxial Co/Cu Superlattices
- Inheritance of Crystal Structure in Cu/Co and Co/Cu Bilayers Grown on MgO(100) Substrate