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Review Article
Open Access
Spin Seebeck Effect: Sensitive Probe for Elementary Excitation, Spin Correlation, Transport, Magnetic Order, and Domains in Solids
- Takashi Kikkawa1, and Eiji Saitoh1,2,3,4
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View Affiliations Hide AffiliationsAffiliations: 1Department of Applied Physics, The University of Tokyo, Tokyo, Japan; email: [email protected] 2Institute for AI and Beyond, The University of Tokyo, Tokyo, Japan 3WPI Advanced Institute for Materials Research, Tohoku University, Sendai, Japan 4Advanced Science Research Center, Japan Atomic Energy Agency, Tokai, Japan
- Vol. 14:129-151 (Volume publication date March 2023) https://doi.org/10.1146/annurev-conmatphys-040721-014957
- First published as a Review in Advance on November 01, 2022
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Copyright © 2023 by the author(s).This work is licensed under a Creative Commons Attribution 4.0 International License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. See credit lines of images or other third-party material in this article for license information
Abstract
The spin Seebeck effect (SSE) refers to the generation of a spin current as a result of a temperature gradient in a magnetic material, which can be detected electrically via the inverse spin Hall effect in a metallic contact. Since the discovery of the SSE in 2008, intensive studies on the SSE have been conducted to elucidate its origin. SSEs appear in a wide range of magnetic materials including ferro-, ferri-, and antiferromagnets and also paramagnets with classical or quantum spin fluctuation. SSE voltage reflects fundamental properties of a magnet, such as elementary excitation, static magnetic order, spin correlation, and spin transport. In this article, we review recent progress on the SSE in various systems, with particular emphasis on its emerging role as a probe of these magnetic properties in solids. We also briefly discuss the recently discovered nuclear SSE.
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