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Article
Hyperfine Fields and Isomer Shifts in Magnetically Ordered Europium Compounds
Journal of Applied Physics
Publication Date
3-1-1966
Abstract
The Mössbauer technique was employed to study hyperfine fields in several ordered divalent europium compounds at low temperatures. The intermetallics EuCu2, EuAl2, and EuAl4 were ordered at helium temperatures and the observed fields and isomer shifts were 189(8) kOe, −0.88 cm∕sec; 278(8) kOe, −0.97 cm∕sec; and 290(8) kOe, −1.14 cm∕sec, respectively. Comparison of these results and previous measurements with EuO, EuS, and Eu metal indicates a possible correlation between isomer shift and internal field. With the exception of EuCu2 the internal fields increase with increasing magnitude of isomer shift. Interpretation of this trend with a core polarization model yields a value of 120±20 kOe for the field per 6s valence electron.
Disciplines
Copyright
1966 American Institute of Physics.
Publisher statement
This article may be downloaded for personal use only. Any other use requires prior permission of the author and the American Institute of Physics. The following article appeared in Journal of Applied Physics.
Citation Information
H. H. Wickman, I. Nowik, J. H. Wernick, D. A. Shirley, et al.. "Hyperfine Fields and Isomer Shifts in Magnetically Ordered Europium Compounds" Journal of Applied Physics Vol. 37 Iss. 3 (1966) p. 1246 - 1247 Available at: http://works.bepress.com/rfrankel/11/