Giant localised spin-Peltier effect due to ultrafast domainwalls motion in antiferromagnetic metals

Spin thermo-electric phenomena have attracted wide attention recently, e.g. the Spin Peltier effect (SPE) heat generation by magnonic spin currents. Here we find that the Spin Peltier ef-fect also manifests as a heat wave accompanying fast moving magnetic textures. High speed andextreme magnetic exc...

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Published in	arXiv.org
Main Authors	Otxoa, Rubén M, Atxitia, Unai, Roy, Pierre E, Fesenko, Oksana Chubykalo
Format	Paper Journal Article
Language	English
Published	Ithaca Cornell University Library, arXiv.org 19.03.2019
Subjects	Antiferromagnetism Domain walls Ferromagnetism Heat generation Magnetism Object recognition Peltier effects Physics - Mesoscale and Nanoscale Physics
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Abstract	Spin thermo-electric phenomena have attracted wide attention recently, e.g. the Spin Peltier effect (SPE) heat generation by magnonic spin currents. Here we find that the Spin Peltier ef-fect also manifests as a heat wave accompanying fast moving magnetic textures. High speed andextreme magnetic excitation localisation are paramount for efficient transfer of energy from thespin-degrees of freedom to electrons and lattice. While satisfying both conditions is subject to se-vere restrictions in ferromagnets, we find that domain walls in antiferomagnets can overcome theselimitations due to their potential ultrahigh mobility and ultra-small widths originating from the rel-ativistic contraction. To illustrate our findings, we show that electric current driven domain wallmotion in the antiferromagnetic metal Mn2Au can carry a localised heat wave with the maximumamplitude up to 1 K . Since domain walls are well localised nanoscale magnetic objects, this effecthas the potential for nanoscale heating sensing and functionalities.
AbstractList	Communications Physics, 2020 Spin thermo-electric phenomena have attracted wide attention recently, e.g. the Spin Peltier effect (SPE) heat generation by magnonic spin currents. Here we find that the Spin Peltier ef-fect also manifests as a heat wave accompanying fast moving magnetic textures. High speed andextreme magnetic excitation localisation are paramount for efficient transfer of energy from thespin-degrees of freedom to electrons and lattice. While satisfying both conditions is subject to se-vere restrictions in ferromagnets, we find that domain walls in antiferomagnets can overcome theselimitations due to their potential ultrahigh mobility and ultra-small widths originating from the rel-ativistic contraction. To illustrate our findings, we show that electric current driven domain wallmotion in the antiferromagnetic metal Mn2Au can carry a localised heat wave with the maximumamplitude up to 1 K . Since domain walls are well localised nanoscale magnetic objects, this effecthas the potential for nanoscale heating sensing and functionalities. Spin thermo-electric phenomena have attracted wide attention recently, e.g. the Spin Peltier effect (SPE) heat generation by magnonic spin currents. Here we find that the Spin Peltier ef-fect also manifests as a heat wave accompanying fast moving magnetic textures. High speed andextreme magnetic excitation localisation are paramount for efficient transfer of energy from thespin-degrees of freedom to electrons and lattice. While satisfying both conditions is subject to se-vere restrictions in ferromagnets, we find that domain walls in antiferomagnets can overcome theselimitations due to their potential ultrahigh mobility and ultra-small widths originating from the rel-ativistic contraction. To illustrate our findings, we show that electric current driven domain wallmotion in the antiferromagnetic metal Mn2Au can carry a localised heat wave with the maximumamplitude up to 1 K . Since domain walls are well localised nanoscale magnetic objects, this effecthas the potential for nanoscale heating sensing and functionalities.
Author	Roy, Pierre E Otxoa, Rubén M Atxitia, Unai Fesenko, Oksana Chubykalo
Author_xml	– sequence: 1 givenname: Rubén surname: Otxoa middlename: M fullname: Otxoa, Rubén M – sequence: 2 givenname: Unai surname: Atxitia fullname: Atxitia, Unai – sequence: 3 givenname: Pierre surname: Roy middlename: E fullname: Roy, Pierre E – sequence: 4 givenname: Oksana surname: Fesenko middlename: Chubykalo fullname: Fesenko, Oksana Chubykalo
BackLink	https://doi.org/10.48550/arXiv.1903.08034$$DView paper in arXiv https://doi.org/10.1038/s42005-020-0296-4$$DView published paper (Access to full text may be restricted)
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Snippet	Spin thermo-electric phenomena have attracted wide attention recently, e.g. the Spin Peltier effect (SPE) heat generation by magnonic spin currents. Here we... Communications Physics, 2020 Spin thermo-electric phenomena have attracted wide attention recently, e.g. the Spin Peltier effect (SPE) heat generation by...
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SubjectTerms	Antiferromagnetism Domain walls Ferromagnetism Heat generation Magnetism Object recognition Peltier effects Physics - Mesoscale and Nanoscale Physics
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Title	Giant localised spin-Peltier effect due to ultrafast domainwalls motion in antiferromagnetic metals
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