Preferential site occupancy of 111In in RNi5 compounds (R = rare earth)

From the measured electric field gradient and asymmetry parameter in RNi5 and Er0.8 In0.2 Ni5 compounds, it is concluded that 111In preferentially occupies the rare-earth site. This is further substantiated by a lattice sum calculation based on a point charge model. 9 ref.--BA

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Bibliographic Details
Published in:Physics letters. A 1980-09, Vol.79 (2-3), p.237-240
Main Authors: Devare, S.H, Pillay, R.G, Malik, S.K, Dhar, S.K, Devare, H.G
Format: Article
Language:English
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Summary:From the measured electric field gradient and asymmetry parameter in RNi5 and Er0.8 In0.2 Ni5 compounds, it is concluded that 111In preferentially occupies the rare-earth site. This is further substantiated by a lattice sum calculation based on a point charge model. 9 ref.--BA
ISSN:0375-9601
DOI:10.1016/0375-9601(80)90260-1