Noncubic Garnet Anisotropy from Growth-Induced Pair Ordering

15 March 1971

journal article
Published by AIP Publishing in Journal of Applied Physics

Vol. 42 (4), 1643-1644
https://doi.org/10.1063/1.1660378

Abstract

A growth‐induced pair anisotropy model is presented to account for the pronounced noncubic anisotropies recently studied in flux‐grown magnetic garnets. In this model the noncubic anisotropy arises from the presence of a relatively small amount of growth‐induced short‐range pair ordering. The resulting pair anisotropy consisting in general of both dipolar and pseudodipolar terms is shown to have many of the features of the observed anisotropy. In particular we perform a detailed calculation of the anisotropy energy under the {110} and {112} growth facets of the garnets when such short‐range pair ordering occurs between ions of the rare‐earth sublattice and those of the iron sublattices. Good agreement is obtained with presently available experimental data.

Keywords

IRON

This publication has 5 references indexed in Scilit:

Radio-Frequency Determination of New Growth-Induced Anisotropy in Garnets for Bubble Devices
Journal of Applied Physics, 1971
UNIAXIAL MAGNETIC GARNETS FOR DOMAIN WALL ``BUBBLE'' DEVICES
Applied Physics Letters, 1970
A further investigation of factors influencing domain configurations in yttrium iron garnet
Journal of Physics and Chemistry of Solids, 1965
STRAIN IN CRYSTALS OF YTTRIUM IRON GARNET
Canadian Journal of Physics, 1961
Paramagnetic Resonance of ${Gd}^{3 +}$ in ${Al}_{2}$ $O_{3}$
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