Hasiguti Ryukiti | Department Of Mechanical Engineering Faculty Of Engineering The Science University Of Tokyo
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概要
- 同名の論文著者
- Department Of Mechanical Engineering Faculty Of Engineering The Science University Of Tokyoの論文著者
関連著者
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Hasiguti Ryukiti
Department Of Mechanical Engineering Faculty Of Engineering The Science University Of Tokyo
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HASIGUTI Ryukiti
Department of Metallurgy, University of Tokyo
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Koiwa Masahiro
The Research Institute For Iron Steel And Other Metals
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YUMOTO Hisami
Department of Materials Science and Technology, Science University of Tokyo
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Hasiguti Ryukiti
Department Of Metallurgy University Of Tokyo
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Yumoto Hisami
Department Of Materials Science And Technology Faculty Of Industrial Science And Technology Science
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Koiwa Masahiro
The Research Institute For Iron Steel And Other Metals Tohoku University
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Matsuura Etsuyuki
Department Of Metallurgy University Of Tokyo
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Matsui Keiji
Department of Cardiovascular and Respiratory Medicine, Shiga University of Medical Science
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ISHINO Shiori
Department of Nuclear Engineering, School of Engineering Tokai University
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Matsui Keiji
Department Of Cardiovascular And Respiratory Medicine Shiga University Of Medical Science
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Matsui Keiji
Department Of Metallurgy University Of Tokyo
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NAKAZAWA FUMIKO
Department of Obstetrics and Gynecology, Faculty of Medicine, University of Tokyo
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Hasiguti Ryukiti
Department Of Metallurgy And Materials Science Faculty Of Engineering University Of Tokyo
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Hasiguti R
Department Of Mechanical Engineering Faculty Of Engineering The Science University Of Tokyo
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Okuda Shigeo
The Institute Of Physical Nd Chemical Research
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Sakairi Hideo
Department Of Metallurgy University Of Tokyo
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Yumoto Hisami
Department Of Mechanical Engineering Faculty Of Engineering The Science University Of Tokyo
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Ishino Shiori
Department Of Metallurgy University Of Tokyo
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SUGAI Tetuya
Department of Metallurgy, University of Tokyo
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Sugai Tetuya
Department Of Metallurgy University Of Tokyo
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Nakazawa Fumiko
Department Of Metallurgy University Of Tokyo
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IWASAKI Kunihiko
Institute of Physical and Chemical Research
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Yonemitsu Hiro
Low Temperature Laboratory Toshiba Electric Company
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ISHlNO Shiori
Department of Metallurgy, University of Tokyo
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Ishlno Shiori
Department Of Metallurgy University Of Tokyo
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MINAMI Kazuko
National Research Institute for Metals
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Hasiguti Ryukiti
Department Of Metallurgy Faculty Of Engineering University Of Tokyo
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KAMOSHITA Gen-ichi
Department of Metallurgy, Faculty of Engineering, University of Tokyo
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Hasiguti R.r.
Department Of Matallurgy University Of Tokyo
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Kamoshita Gen-ichi
Department Of Metallurgy Faculty Of Engineering University Of Tokyo
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Hasiguti R.R.
Department of Metallurgy, University of Tokyo
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Nakazawa Fumiko
Department of Chemistry, Faculty of Science, Nara Women's University
著作論文
- γ-Irradiation of High Purity p-Type Silicon with Special Reference to Single Vacancy
- A Proposed Explanation of Irradiation Growth of Uranium
- A Disclination as a Growth Center of Surface Crystals
- VLS Growth Mechanism of Cd Crystals with Sn Impurities
- Internal Friction Peaks of Cold Worked Dilute Copper Alloys
- Abnormal Plastic After-Effect in Twisted Copper
- Temperature Dependence of Morphology and Growth Mechanisum of Vapor-Grown Cd crystals as Affected by Bi Impurities
- Thermally Induced Acceptor Centers in Germanium
- Internal Friction Peak in Quenched Gold
- Lifetime Measurements of Minority Carriers Across and Along a Dislocation Wall in a Germanium Crystal
- Lifetime Measurements of Minority Carriers in Deuteron Irradiated Germanium Crystals
- Role of Dislocation Rearrangement in the Elastic Modulus Recovery of Deformed Copper
- Electrical Resistivity and Defect Energy Levels in Reduced Titanium Dioxide at Low Temperatures
- Internal Friction of Alpha-Iron Due to Boron Atoms
- Impurity Trapped Interstitials and the Low Temperature Annealing Stages of Irradiated Copper
- Vacancy-Impurity Binding Energy Rule in Aluminum
- Modification and Interpretation of the Vacancy-Impurity Binding Energy Rule in Aluminum
- A Theory of Migration Energies of an Interstitial in Germanium and Silicon