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Transition metal sublattice magnetization and the anomalous Hall effect in (110)-ErFe2/YFe2 multilayers

Transition metal sublattice magnetization and the anomalous Hall effect in (110)-ErFe2/YFe2 multilayers
Transition metal sublattice magnetization and the anomalous Hall effect in (110)-ErFe2/YFe2 multilayers
Bulk magnetometry and anomalous Hall effect measurements are presented and discussed, for rare earth (RE)–transition metal compound superlattices, grown by molecular beam epitaxy. The results are complemented with modeled hysteresis curves. It is found that there is good agreement between the anomalous Hall effect and the calculated Fe magnetization curve. This suggests that the anomalous Hall effect, in the REFe2 intermetallics, is driven predominantly by the magnetization MFe of the transition metal sublattice, and not by the total magnetization M. In addition, it is shown that the anomalous Hall effect in the superlattice (110)-[ErFe2(50 Å)/YFe2(150 Å)]×23 can be used to follow the complicated magnetization reversal processes found at high temperatures.
1550-235X
Martin, K.N.
c53d0004-4655-40e9-aa05-563f3a9602c4
Morrison, C.
fa62d65f-cba3-4b4b-a0fa-4a2cff256e8e
Bowden, G.J.
f73a1c01-4d38-4170-bf30-9ebfa4283807
de Groot, P.A.J.
98c21141-cf90-4e5c-8f2b-d2aae8efb84d
Ward, R.C.C.
b5eaa153-e136-4555-8b07-325a4b5329cb
Martin, K.N.
c53d0004-4655-40e9-aa05-563f3a9602c4
Morrison, C.
fa62d65f-cba3-4b4b-a0fa-4a2cff256e8e
Bowden, G.J.
f73a1c01-4d38-4170-bf30-9ebfa4283807
de Groot, P.A.J.
98c21141-cf90-4e5c-8f2b-d2aae8efb84d
Ward, R.C.C.
b5eaa153-e136-4555-8b07-325a4b5329cb

Martin, K.N., Morrison, C., Bowden, G.J., de Groot, P.A.J. and Ward, R.C.C. (2008) Transition metal sublattice magnetization and the anomalous Hall effect in (110)-ErFe2/YFe2 multilayers. Physical Review B, 78 (17), [172401]. (doi:10.1103/PhysRevB.78.172401).

Record type: Article

Abstract

Bulk magnetometry and anomalous Hall effect measurements are presented and discussed, for rare earth (RE)–transition metal compound superlattices, grown by molecular beam epitaxy. The results are complemented with modeled hysteresis curves. It is found that there is good agreement between the anomalous Hall effect and the calculated Fe magnetization curve. This suggests that the anomalous Hall effect, in the REFe2 intermetallics, is driven predominantly by the magnetization MFe of the transition metal sublattice, and not by the total magnetization M. In addition, it is shown that the anomalous Hall effect in the superlattice (110)-[ErFe2(50 Å)/YFe2(150 Å)]×23 can be used to follow the complicated magnetization reversal processes found at high temperatures.

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Published date: 4 November 2008
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Identifiers

Local EPrints ID: 143937
URI: http://eprints.soton.ac.uk/id/eprint/143937
DOI: doi:10.1103/PhysRevB.78.172401
ISSN: 1550-235X
PURE UUID: 55803af3-f736-444d-ba25-df40352fd06a

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Date deposited: 13 Apr 2010 15:54
Last modified: 08 Jan 2022 08:37

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Contributors

Author: K.N. Martin
Author: C. Morrison
Author: G.J. Bowden
Author: P.A.J. de Groot
Author: R.C.C. Ward

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