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Observation of spin Seebeck contribution to the transverse thermopower in Ni-Pt and MnBi-Au bulk nanocomposites

Stephen R. Boona (), Koen Vandaele, Isabel N. Boona, David W. McComb and Joseph P. Heremans
Additional contact information
Stephen R. Boona: The Ohio State University
Koen Vandaele: Ghent University
Isabel N. Boona: Center for Electron Microscopy and Analysis, The Ohio State University
David W. McComb: Center for Electron Microscopy and Analysis, The Ohio State University
Joseph P. Heremans: The Ohio State University

Nature Communications, 2016, vol. 7, issue 1, 1-7

Abstract: Abstract Transverse thermoelectric devices produce electric fields perpendicular to an incident heat flux. Classically, this process is driven by the Nernst effect in bulk solids, wherein a magnetic field generates a Lorentz force on thermally excited electrons. The spin Seebeck effect also produces magnetization-dependent transverse electric fields. It is traditionally observed in thin metallic films deposited on electrically insulating ferromagnets, but the films’ high resistance limits thermoelectric conversion efficiency. Combining Nernst and spin Seebeck effect in bulk materials would enable devices with simultaneously large transverse thermopower and low electrical resistance. Here we demonstrate experimentally that this is possible in composites of conducting ferromagnets (Ni or MnBi) containing metallic nanoparticles with strong spin–orbit interactions (Pt or Au). These materials display positive shifts in transverse thermopower attributable to inverse spin Hall electric fields in the nanoparticles. This more than doubles the power output of the Ni-Pt materials, establishing proof of principle that the spin Seebeck effect persists in bulk nanocomposites.

Date: 2016
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Persistent link: https://EconPapers.repec.org/RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms13714

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DOI: 10.1038/ncomms13714

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