Critical bond lengths and their role in spontaneous magnetostriction of R2Fe17CX (R=Y,Nd, Gd,Tb, Er) |
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| Authors: | N. Yang K.W. Dennis R.W. McCallum M.J. Kramer Y. Zhang P.L. Lee |
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| Affiliation: | 1. Ames Laboratory and the Department of Materials Science and Engineering, Iowa State University, Ames, IA 50010, USA;2. Advanced Photon Source, Argonne National Laboratory, Argonne, IL 60439, USA |
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| Abstract: | ![]()
High-energy high-flux synchrotron X-rays have been used to study the spontaneous magnetostriction of R2Fe17 (R=Y, Nd, Gd, Tb, Er) and their carbides in the temperature range 10–1100 K. Addition of interstitial carbon greatly increases both the Curie temperatures (TC) and the spontaneous magnetostrain of the compounds, while reduces the anisotropy of the magnetostrain by expanding the distances between rare-earth and neighboring Fe sites. The increase of TC with carbon is due to the increased spatial separation of the Fe hexagon layers. On the basal plane, the Fe hexagons are squeezed and the contribution of Fe sublattice to spontaneous magnetostriction is attenuated, while that of rare-earth sublattice is enhanced. The average bond magnetostrain around Fe sites are in linear relation with their hyperfine field intensities. |
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| Keywords: | 75.80.+q 75.50.Ww |
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