Flat magnetic exchange springs as mechanism for additional magnetoresistance in magnetic nanoisland arrays

Process of magnetization and magnetoresistance have been studied in nanoisland bilayer systems of FeNi-Co. Hysteresis loops show characteristic features (steps) most clearly observed in certain orientations of the sample in a magnetic field. To explain these features the concept of flat magnetic exc...

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Published in:Journal of magnetism and magnetic materials 2017-04, Vol.428, p.132-135
Main Authors: Boltaev, A.P., Pudonin, F.A., Sherstnev, I.A., Egorov, D.A., Kozmin, A.M.
Format: Article
Language:English
Subjects:
Alloys
Electron spin
Electrons
Exchanging
Hysteresis loops
Island films
Magnetic fields
Magnetism
Magnetoresistance
Magnetoresistivity
Studies
Thin films
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container_start_page 132
container_title Journal of magnetism and magnetic materials
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creator Boltaev, A.P.
Pudonin, F.A.
Sherstnev, I.A.
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Kozmin, A.M.
description Process of magnetization and magnetoresistance have been studied in nanoisland bilayer systems of FeNi-Co. Hysteresis loops show characteristic features (steps) most clearly observed in certain orientations of the sample in a magnetic field. To explain these features the concept of flat magnetic exchange spring has been introduced for nanoisland bilayers. It has been proposed that additional magnetoresistance can be the result of spin-dependent scattering of electrons in the area of flat magnetic exchange spring. Magnetoresistance studies of bilayer systems has shown that additional magnetoresistance occurs at the same magnetic fields as steps on hysteresis loops. •Metallic FeNi-Co bilayers are studied.•FeNi and Co layers magnetize independently.•Concept of flat spin spring is proposed.•Additional magnetoresistance occurs in intermediate magnetic fields.
doi_str_mv 10.1016/j.jmmm.2016.12.028
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subjects Alloys
Electron spin
Electrons
Exchanging
Hysteresis loops
Island films
Magnetic fields
Magnetism
Magnetoresistance
Magnetoresistivity
Studies
Thin films
title Flat magnetic exchange springs as mechanism for additional magnetoresistance in magnetic nanoisland arrays
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