Fizika Nizkikh Temperatur: Volume 27, Number 4 (April 2001), p. 342-363    ( to contents , go back )

Magnetoelastic stresses in rare-earth thin films and superlattices

J. I. Arnaudas, M. Ciria, C. de la Fuente, L. Benito, and A. del Moral

Departamento de Magnetismo de Sólidos, Departamento de Fisica de la Materia Condensada and ICMA, Universidad de Zaragoza and CSIC, 50071 Zaragoza, Spain

R. C. C. Ward and M. R. Wells

Dept. of Physics, Clarendon Laboratory, Oxford OX1 3PU, U.K.

C. Dufour, K. Dumesnil, and A. Mougin

Laboratoire de Métallurgie Physique et de Science des Matériaux, Université Henri Poincaré , Nancy, France
pos Анотація:

Received October 26, 2000


We report on the study of the magnetoelastic behavior of some rare-earth based thin films and superlattices (SL`s). Magnetoelastic stress (MS) measurements (by using a cantilever capacitive technique) within a wide range of temperatures (10-300 K) and magnetic fields (up to 12 T) have been performed. We derive expressions relating the cantilever curvatures and the magnetoelastic stresses in anisotropic thin films and SL`s (for cubic symmetry) deposited onto crystalline substrates. The magnetoelastic energy associated to the interfaces and the epitaxial stress dependence of the volume MS has been investigated by studying the basal plane MS in Hon/Lu15 and in Ho10/Ym SL`s: we obtain interface MS even higher than the volume ones and the effect in bulk`s MS of the epitaxial strain is large. In Dy/Y and Er/Lu SL's we also deduce the MS contributions but, for Er/Lu, incomplete saturation leads to inconclusive results. Although the latter case also happens in Ho/Tm SL`s, MS clearly shows anisotropy competition. In TbFe2 (t) / YFe2(1000 Å) (300 Å < t < 1300 Å) epitaxial bilayers, we determine all the MS allowed by the symmetry and show that epitaxial stress strongly modifies the tetragonal MS. The thermal dependence of MS parameters is also analysed.

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