Change of Site Occupancy of Hydrogen in Nb on Alloying with Undersized Mo
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概要
- 論文の詳細を見る
Tlae site occupancy of hydrogen in Nlo -20 at.'7]VIo alloys is itavestig;tied ztt [00111 tetnperattrref'or H concentr'ations (Cjj ) 2.6, 4.2, and 8.0 at.% by a channelling ttaethod trsing a ntrclear re?rctiora'H(" B, o)ao. Difl'erent I'I'Oll1 previotrs restrlts f'or loxx'er llVIo concerutratiotas, a large portion of' H?ttorns are at tetrsr1?edr?tl (]) sites and, in srddition, tlae octahedr?rl (()) site occtrpancy is nexvlyolcserxxed. The hydrogera distrilctrtion ch?xnges xvitlu Cut. At (Vll = 2.6 and 4.2 at.%, tlae 20-30%of' H atouaas ?rr'e loc;tied at O sites, xvhile ;tt Cjj : 8.0 ?tt.'7 the f'r?actiota of' tlae 0-site OCCU1p21IlC)reraa?trkably decreases to O-10%.
- 社団法人日本物理学会の論文
- 1998-01-15
著者
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KOIKE Shigetoshi
Department of Physics II,Science University of Tokyo
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Koike Shigetoshi
Department Of Physics Faculty Of Science Science University Of Tokyo
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Koike Shigetoshi
Department Of Physics Ii Faculty Of Science Science University Of Tokyo
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YAGI Eiichi
The Institute of Physics and Chemical Research
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Yagi Eiichi
The Institute Of Physical And Chemical Research
関連論文
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- Site Change of Hydrogen in Nb due to Interaction with Oxygen(Cross-disciplinary physics and related areas of science and technology)
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- Dark and Light Pits in Bismuth Crystals
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- Change of Site Occupancy of Hydrogen in Nb on Alloying with Undersized Mo
- Anomalous Longitudinal Magnetoresistance of Bismuth
- Destruction of Superdiffusivity of Hydrogen in Vanadium by the Applied Electric Field
- Formation of Hydrogen-Associated Vacancy Clusters in Nb as Investigated from Site Occupancy Change of Hydrogen
- Site Occupancy of Hydrogen in a Distorted bcc Lattice in Niobium Alloyed with Mo Atoms
- Site Occupancies of Hydrogen in Nb Alloyed with Oversized Ta Atoms or Undersized Mo Atoms
- Lattice Location and Density Distribution of Hydrogen in \beta_{1}-V2H
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- Trapping of hydrogen by solute atoms in Nb-Mo alloys as observed by the channelling method.
- Effect of Temperature Gradient Annealing on Bismuth Single Crystal
- Site Change of Hydrogen Owing to Lattice Distortion in Niobium Alloys