Arboleda Jr. | Osaka University:de La Salle University
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概要
関連著者
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Arboleda Jr.
Osaka University:de La Salle University
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Dino W
Osaka Univ. Osaka
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Dino W
Department Of Physics Osaka University
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Dino Wilson
Department Of Applied Physics Osaka University
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KASAI Hideaki
Osaka University
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Arboleda Jr.
Osaka Univeristy:de La Salle University
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Kasai Hideaki
Osaka Univ.
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Dino W
Department Of Applied Physics Osaka University
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Kasai Haruo
Department Of Electronics Chiba University
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Dino Wilson
Department of Applied Physics, Osaka University
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中西 寛
阪大院工
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NAKANISHI Hiroshi
Osaka University
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DINO Wilson
Osaka University
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Nakanishi Hiroshi
Osaka Univ. Osaka Jpn
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Dino Wilson
Department Of Physics Osaka University
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NAKANISHI Hiroshi
Department of Precision Science and Technology and Applied Physics, Osaka University
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KASAI Hideaki
Department of Precision Science and Technology and Applied Physics, Osaka University
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Son Do
Graduate School Of Engineering Osaka University
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Son Do
Osaka University
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Arboleda Jr.
Osaka University
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Kasai Hideaki
Department Of Applied Physics Osaka University
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Kasai Hideaki
Osaka Univeristy
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ARBOLEDA JR.
Department of Applied Physics, Osaka University
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Arboleda Jr.
Department Of Applied Physics Osaka University
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Kasai Hideaki
Department Of Applied Physics Faculty Of Engineering Osaka University
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Nakanishi Hiroshi
Department Of Precision Science & Technology And Applied Physics Osaka University
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Nakanishi Hiroshi
Department Of Electronic Engineering Faculty Of Engineering Yamanashi University:(present Address) Sanken Electric Co. Ltd.
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Nakanishi Hiroshi
Department Of Biological Science And Technology Tokyo University Of Science
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Nakanishi Hiroshi
Department of Applied Physics, Graduate School of Engineering, Osaka University, Suita, Osaka 565-0871, Japan
著作論文
- 20aPS-49 Dynamic Calculations on Hydrogen-Pt(111) Surface Reactions
- 25pPSB-76 H_2 Dissociative Adsorption on CO-Precovered Pt(111) Surface
- Hydrogen-Induced Lattice Relaxation Effects on the Absorption and Desorption of H on a Li(100) Surface
- 24pPSA-31 First Principles Studies on the Effects of Vacancies on H_2 Dissociative Adsorption on the Pt(111) Surface