Giant magneto and anisotropic resistance in an epitaxial (110) DyFe2/YFe2 multilayer film

Giant magneto and anisotropic resistance in an epitaxial (110) DyFe2/YFe2 multilayer film

Anisotropic and giant magneto-resistance (AMR and GMR) measurements for a molecular beam epitaxy grown (110) multilayer film [50 Å-DyFe 2/50 Å-YFe2] × 40 at 100 K are reported. The film possesses a bending field BB∼5T and an irreversible switching field BIS∼5T. These features allow the study of both...

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Prif Awduron: Beaujour, J, Bowden, G, Zhukov, A, O'Neill, J, Rainford, B, de Groot, P, Ward, R, Wells, MR, Jansen, A
Fformat: Journal article
Iaith:English
Cyhoeddwyd: 2004
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author Beaujour, J
Bowden, G
Zhukov, A
O'Neill, J
Rainford, B
de Groot, P
Ward, R
Wells, MR
Jansen, A
author_facet Beaujour, J
Bowden, G
Zhukov, A
O'Neill, J
Rainford, B
de Groot, P
Ward, R
Wells, MR
Jansen, A
author_sort Beaujour, J
collection OXFORD
description Anisotropic and giant magneto-resistance (AMR and GMR) measurements for a molecular beam epitaxy grown (110) multilayer film [50 Å-DyFe 2/50 Å-YFe2] × 40 at 100 K are reported. The film possesses a bending field BB∼5T and an irreversible switching field BIS∼5T. These features allow the study of both AMR, and GMR caused by the creation not only of longitudinal but also transverse magnetic exchange springs, in the magnetically soft YFe2 layers. Finally, rotation experiments in applied fields show that like DyFe 2 films, there is a metastable state aligned along a [1̄ 1 0] axis at 100K. © 2004 Elsevier B.V. All rights reserved.
first_indexed 2024-03-07T03:06:46Z
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language English
last_indexed 2024-03-07T03:06:46Z
publishDate 2004
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spelling oxford-uuid:b2ce13a1-7dfb-4d10-b91a-4eeccc7a8d9c2022-03-27T04:14:24ZGiant magneto and anisotropic resistance in an epitaxial (110) DyFe2/YFe2 multilayer filmJournal articlehttp://purl.org/coar/resource_type/c_dcae04bcuuid:b2ce13a1-7dfb-4d10-b91a-4eeccc7a8d9cEnglishSymplectic Elements at Oxford2004Beaujour, JBowden, GZhukov, AO'Neill, JRainford, Bde Groot, PWard, RWells, MRJansen, AAnisotropic and giant magneto-resistance (AMR and GMR) measurements for a molecular beam epitaxy grown (110) multilayer film [50 Å-DyFe 2/50 Å-YFe2] × 40 at 100 K are reported. The film possesses a bending field BB∼5T and an irreversible switching field BIS∼5T. These features allow the study of both AMR, and GMR caused by the creation not only of longitudinal but also transverse magnetic exchange springs, in the magnetically soft YFe2 layers. Finally, rotation experiments in applied fields show that like DyFe 2 films, there is a metastable state aligned along a [1̄ 1 0] axis at 100K. © 2004 Elsevier B.V. All rights reserved.
spellingShingle Beaujour, J
Bowden, G
Zhukov, A
O'Neill, J
Rainford, B
de Groot, P
Ward, R
Wells, MR
Jansen, A
Giant magneto and anisotropic resistance in an epitaxial (110) DyFe2/YFe2 multilayer film
title Giant magneto and anisotropic resistance in an epitaxial (110) DyFe2/YFe2 multilayer film
title_full Giant magneto and anisotropic resistance in an epitaxial (110) DyFe2/YFe2 multilayer film
title_fullStr Giant magneto and anisotropic resistance in an epitaxial (110) DyFe2/YFe2 multilayer film
title_full_unstemmed Giant magneto and anisotropic resistance in an epitaxial (110) DyFe2/YFe2 multilayer film
title_short Giant magneto and anisotropic resistance in an epitaxial (110) DyFe2/YFe2 multilayer film
title_sort giant magneto and anisotropic resistance in an epitaxial 110 dyfe2 yfe2 multilayer film
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