Origin of the spin Seebeck effect in compensated ferrimagnets

Ferrimagnets possess multiple spin sub-lattices resulting in a complex magnon band structure and subtle spin transport across interfaces. Here, the authors show how the spin Seebeck effect, the thermal generation of pure spin current, may be an effective tool to study these magnetic excitations.

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Autores principales: Stephan Geprägs, Andreas Kehlberger, Francesco Della Coletta, Zhiyong Qiu, Er-Jia Guo, Tomek Schulz, Christian Mix, Sibylle Meyer, Akashdeep Kamra, Matthias Althammer, Hans Huebl, Gerhard Jakob, Yuichi Ohnuma, Hiroto Adachi, Joseph Barker, Sadamichi Maekawa, Gerrit E. W. Bauer, Eiji Saitoh, Rudolf Gross, Sebastian T. B. Goennenwein, Mathias Kläui
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/122bc25d64ec44cd8e367218d007d34b
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spelling oai:doaj.org-article:122bc25d64ec44cd8e367218d007d34b2021-12-02T15:35:43ZOrigin of the spin Seebeck effect in compensated ferrimagnets10.1038/ncomms104522041-1723https://doaj.org/article/122bc25d64ec44cd8e367218d007d34b2016-02-01T00:00:00Zhttps://doi.org/10.1038/ncomms10452https://doaj.org/toc/2041-1723Ferrimagnets possess multiple spin sub-lattices resulting in a complex magnon band structure and subtle spin transport across interfaces. Here, the authors show how the spin Seebeck effect, the thermal generation of pure spin current, may be an effective tool to study these magnetic excitations.Stephan GeprägsAndreas KehlbergerFrancesco Della ColettaZhiyong QiuEr-Jia GuoTomek SchulzChristian MixSibylle MeyerAkashdeep KamraMatthias AlthammerHans HueblGerhard JakobYuichi OhnumaHiroto AdachiJoseph BarkerSadamichi MaekawaGerrit E. W. BauerEiji SaitohRudolf GrossSebastian T. B. GoennenweinMathias KläuiNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-6 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Stephan Geprägs
Andreas Kehlberger
Francesco Della Coletta
Zhiyong Qiu
Er-Jia Guo
Tomek Schulz
Christian Mix
Sibylle Meyer
Akashdeep Kamra
Matthias Althammer
Hans Huebl
Gerhard Jakob
Yuichi Ohnuma
Hiroto Adachi
Joseph Barker
Sadamichi Maekawa
Gerrit E. W. Bauer
Eiji Saitoh
Rudolf Gross
Sebastian T. B. Goennenwein
Mathias Kläui
Origin of the spin Seebeck effect in compensated ferrimagnets
description Ferrimagnets possess multiple spin sub-lattices resulting in a complex magnon band structure and subtle spin transport across interfaces. Here, the authors show how the spin Seebeck effect, the thermal generation of pure spin current, may be an effective tool to study these magnetic excitations.
format article
author Stephan Geprägs
Andreas Kehlberger
Francesco Della Coletta
Zhiyong Qiu
Er-Jia Guo
Tomek Schulz
Christian Mix
Sibylle Meyer
Akashdeep Kamra
Matthias Althammer
Hans Huebl
Gerhard Jakob
Yuichi Ohnuma
Hiroto Adachi
Joseph Barker
Sadamichi Maekawa
Gerrit E. W. Bauer
Eiji Saitoh
Rudolf Gross
Sebastian T. B. Goennenwein
Mathias Kläui
author_facet Stephan Geprägs
Andreas Kehlberger
Francesco Della Coletta
Zhiyong Qiu
Er-Jia Guo
Tomek Schulz
Christian Mix
Sibylle Meyer
Akashdeep Kamra
Matthias Althammer
Hans Huebl
Gerhard Jakob
Yuichi Ohnuma
Hiroto Adachi
Joseph Barker
Sadamichi Maekawa
Gerrit E. W. Bauer
Eiji Saitoh
Rudolf Gross
Sebastian T. B. Goennenwein
Mathias Kläui
author_sort Stephan Geprägs
title Origin of the spin Seebeck effect in compensated ferrimagnets
title_short Origin of the spin Seebeck effect in compensated ferrimagnets
title_full Origin of the spin Seebeck effect in compensated ferrimagnets
title_fullStr Origin of the spin Seebeck effect in compensated ferrimagnets
title_full_unstemmed Origin of the spin Seebeck effect in compensated ferrimagnets
title_sort origin of the spin seebeck effect in compensated ferrimagnets
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/122bc25d64ec44cd8e367218d007d34b
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