Journal
REPORTS ON PROGRESS IN PHYSICS
Volume 76, Issue 3, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/0034-4885/76/3/036501
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Funding
- Ministry of Education, Culture, Sports, Science and Technology, Japan (MEXT) [24244051]
- PRESTO-JST 'Phase Interfaces for Highly Efficient Energy Utilization'
- CREST-JST 'Creation of Nanosystems with Novel Functions through Process Integration'
- LC-IMR of Tohoku University
- Murata Science Foundation
- Mazda Foundation
- Sumitomo Foundation
- MEXT [24860003]
- Grants-in-Aid for Scientific Research [24860003, 22740210] Funding Source: KAKEN
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The spin Seebeck effect refers to the generation of a spin voltage caused by a temperature gradient in a ferromagnet, which enables the thermal injection of spin currents from the ferromagnet into an attached nonmagnetic metal over a macroscopic scale of several millimeters. The inverse spin Hall effect converts the injected spin current into a transverse charge voltage, thereby producing electromotive force as in the conventional charge Seebeck device. Recent theoretical and experimental efforts have shown that the magnon and phonon degrees of freedom play crucial roles in the spin Seebeck effect. In this paper, we present the theoretical basis for understanding the spin Seebeck effect and briefly discuss other thermal spin effects.
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