Spin Valves as a Tool for Studying Helicoidal Magnetism

Exchange-biased nanostructures of the “spin valve” type, which include an additional layer of the rare-earth metal dysprosium, are made by magnetron sputtering. Temperature variations in the magnetotransport properties of the spin valves are used as an indicator of change in the magnetic state of th...

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Published in:	Surface investigation, x-ray, synchrotron and neutron techniques Vol. 15; no. 6; pp. 1278 - 1281
Main Authors:	Ustinov, V. V., Milyaev, M. A., Naumova, L. I., Zavornitsyn, R. S., Krinitsina, T. P., Proglyado, V. V.
Format:	Journal Article
Language:	English
Published:	Moscow Pleiades Publishing 01-11-2021 Springer Nature B.V
Subjects:	Antiferromagnetism Chemistry and Materials Science Dysprosium Giant magnetoresistance Magnetic anisotropy Magnetic moments Magnetic properties Magnetoresistivity Magnetron sputtering Materials Science Rare earth elements Spin valves Surfaces and Interfaces Temperature dependence Thin Films Transport properties magnetoresistance Néel temperature dysprosium spin valve unidirectional anisotropy helicoidal ordering
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Abstract	Exchange-biased nanostructures of the “spin valve” type, which include an additional layer of the rare-earth metal dysprosium, are made by magnetron sputtering. Temperature variations in the magnetotransport properties of the spin valves are used as an indicator of change in the magnetic state of the dysprosium nanolayer. Information on the formation of unidirectional magnetic anisotropy at the CoFe/Dy interface upon the transition through Néel temperature of dysprosium is obtained. It is shown that the antiferromagnetic phase in the polycrystalline dysprosium layer has noncollinear magnetic ordering. The temperature dependence of the angle between the directions of the magnetic moments at the dysprosium-layer boundaries is determined. The change in this angle observed in the entire temperature region of the existence of helicoidal ordering in dysprosium reflects the change in the period of the magnetic helicoid in dysprosium with temperature. Thus, a new method for studying chiral magnetics is proposed, in which the indicator of the helicoidal magnetic state is a spin valve possessing giant magnetoresistance, containing a layer of the helimagnet under investigation.
AbstractList	Exchange-biased nanostructures of the “spin valve” type, which include an additional layer of the rare-earth metal dysprosium, are made by magnetron sputtering. Temperature variations in the magnetotransport properties of the spin valves are used as an indicator of change in the magnetic state of the dysprosium nanolayer. Information on the formation of unidirectional magnetic anisotropy at the CoFe/Dy interface upon the transition through Néel temperature of dysprosium is obtained. It is shown that the antiferromagnetic phase in the polycrystalline dysprosium layer has noncollinear magnetic ordering. The temperature dependence of the angle between the directions of the magnetic moments at the dysprosium-layer boundaries is determined. The change in this angle observed in the entire temperature region of the existence of helicoidal ordering in dysprosium reflects the change in the period of the magnetic helicoid in dysprosium with temperature. Thus, a new method for studying chiral magnetics is proposed, in which the indicator of the helicoidal magnetic state is a spin valve possessing giant magnetoresistance, containing a layer of the helimagnet under investigation.
Author	Naumova, L. I. Proglyado, V. V. Zavornitsyn, R. S. Krinitsina, T. P. Ustinov, V. V. Milyaev, M. A.
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Copyright	Pleiades Publishing, Ltd. 2021. ISSN 1027-4510, Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2021, Vol. 15, No. 6, pp. 1278–1281. © Pleiades Publishing, Ltd., 2021. Russian Text © The Author(s), 2021, published in Poverkhnost’, 2021, No. 12, pp. 26–30.
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Snippet	Exchange-biased nanostructures of the “spin valve” type, which include an additional layer of the rare-earth metal dysprosium, are made by magnetron...
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SubjectTerms	Antiferromagnetism Chemistry and Materials Science Dysprosium Giant magnetoresistance Magnetic anisotropy Magnetic moments Magnetic properties Magnetoresistivity Magnetron sputtering Materials Science Rare earth elements Spin valves Surfaces and Interfaces Temperature dependence Thin Films Transport properties
Title	Spin Valves as a Tool for Studying Helicoidal Magnetism
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