Dipole-dipole interactions and the critical resistivity of gadolinium
Date
1987-06/01
Authors
Geldart, D. J. W.
De'Bell, K.
Cook, J.
Laubitz, M. J.
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
Results are presented for the electrical resistivity of a c-axis single crystal of high-purity gadolinium metal in the immediate vicinity of the Curie temperature. Numerical analysis reveals that the data are not well described by the usual power laws in (T-Tc)/Tc but tend to exhibit a change in effective slope at Tc which can be described by classical Landau theory with logarithmic corrections. This is interpreted in terms of the dipole-dipole interactions, which are shown to become important at about 1 K above Tc. The authors suggest that gadolinium is a uniaxial dipolar ferromagnet in the asymptotic critical-behaviour regime
Description
Keywords
Curie temperature, Electrical conductivity of crystalline metals and alloys, Ferromagnetic properties of substances, Gadolinium
Citation
Geldart, D. J. W., K. De'Bell, J. Cook, and M. J. Laubitz. 1987. "Dipole-dipole interactions and the critical resistivity of gadolinium." Physical Review B (Condensed Matter) 35(16): 8876-9. Copyright © 1987 American Physical Society.