Magnetic and magnetocaloric properties of Py/Gd/CoFe/IrMn stacks

Magnetic and magnetocaloric properties of Py/Gd/CoFe/IrMn stacks

•Verification of the concept for enhancing the MCE.•Investigation of the magnetocaloric potential of Py/Gd/CoFe/IrMn stacks.•The temperature-sensitive region of Py switching is far from the TC in Gd. We explore whether it is possible to enhance the magnetocaloric effect (MCE) in layered systems, whe...

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Bibliographic Details
Published in:Journal of magnetism and magnetic materials Vol. 491; p. 165601
Main Authors: Polushkin, N.I., Pashenkin, I.Y., Fadeev, E., Lähderanta, E., Fraerman, A.A.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-12-2019
Elsevier BV
Subjects:
Coercivity
Coupling
Curie temperature
Exchanging
Ferromagnetism
Ferrous alloys
Gadolinium
Interfacial exchange coupling
Interlayers
Magnetic alloys
Magnetic properties
Magnetic switching
Magnetocaloric effect
Stacks
Thin magnetic films
Magnetocaloric effect
Thin magnetic films
Curie temperature
Interfacial exchange coupling
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Summary:•Verification of the concept for enhancing the MCE.•Investigation of the magnetocaloric potential of Py/Gd/CoFe/IrMn stacks.•The temperature-sensitive region of Py switching is far from the TC in Gd. We explore whether it is possible to enhance the magnetocaloric effect (MCE) in layered systems, where a refrigerant (weak ferromagnet) is sandwiched by strong ferromagnets, by magnetizing the spacer with the effective field that results from its exchange coupling to the surroundings. Temperature variation around the Curie point of the spacer (TC) leads to a change in interlayer coupling between strongly ferromagnetic surroundings, which manifests in increasing the switching field and/or the coercivity of the softer from the surroundings. In order to verify the hypothesis above, we have prepared layered stacks of Py(10 nm)/Gd(x nm)/Co90Fe10(7 nm)/Ir20Mn80(15 nm) (Py = Ni80Fe20 is permalloy) with the Gd spacer in thickness varied from x = 20 nm to x = 5 nm. In this system we clarified how the magnetization switching in the Py layer was sensitive to temperature varied in the range between 300 K and 50 K. We have found that strong enough exchange between the Py and Gd layers emerges only at low temperatures (T < 100 K) which are far from TC. This feature provides an understanding of the observed magnetocaloric properties of the system under study.
ISSN:0304-8853
1873-4766
DOI:10.1016/j.jmmm.2019.165601