Indirect Observation of Antiferromagnetic Domains by Linear Magnetostriction

1 January 1966

journal article
Published by AIP Publishing in Journal of Applied Physics

Vol. 37 (1), 234-237
https://doi.org/10.1063/1.1707815

Abstract

This paper reports the annealing and switching of purely antiferromagnetic domains in αFe2O3 as identified by measurements of the coefficients of linear magnetostriction in complete agreement with the predictions of magnetic symmetry. The domain state was found to follow a hysteresis reversal loop caused probably by domain pinning centers within the crystal. The linear magnetostriction coefficients were virtually independent of temperature in the range 77° to 220°K. Magnetostriction also revealed a field-induced reduction of the magnetic transition temperature, this being related to the relative thermodynamic potentials of the two phases. This reduction explains the unusually large measured strains close to the transition in terms of the volume changes resulting from the magnetic transition.

Keywords

THERMODYNAMICS

This publication has 7 references indexed in Scilit:

Antiferromagnetic domain switching in Cr2O3
Physics Letters, 1965
Magnetic Anisotropy in Antiferromagnetic Corundum-Type Sesquioxides
Physical Review B, 1965
Polarized-Neutron Study of Hematite
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Physics Letters, 1964
Linear Magnetostriction in Antiferromagnetics
Proceedings of the Physical Society, 1963
Anisotropy of the Magnetoelectric Effect in ${Cr}_{2}$ $O_{3}$
Physical Review Letters, 1961
Magnetostrictive Effects in an Antiferromagnetic Hematite Crystal
Physical Review B, 1956

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