Combinatorial investigation of spin-orbit materials using spin Peltier effect

Ken-ichi Uchida; Michiko Sasaki; Yuya Sakuraba; Ryo Iguchi; Shunsuke Daimon; Eiji Saitoh; Masahiro Goto

doi:10.1038/s41598-018-34493-6

Scientific Reports (Oct 2018)

Combinatorial investigation of spin-orbit materials using spin Peltier effect

Ken-ichi Uchida,
Michiko Sasaki,
Yuya Sakuraba,
Ryo Iguchi,
Shunsuke Daimon,
Eiji Saitoh,
Masahiro Goto

Affiliations

Ken-ichi Uchida: Research Center for Magnetic and Spintronic Materials, National Institute for Materials Science
Michiko Sasaki: Research and Services Division of Materials Data and Integrated System, National Institute for Materials Science
Yuya Sakuraba: Research Center for Magnetic and Spintronic Materials, National Institute for Materials Science
Ryo Iguchi: Research Center for Magnetic and Spintronic Materials, National Institute for Materials Science
Shunsuke Daimon: Institute for Materials Research, Tohoku University
Eiji Saitoh: Center for Spintronics Research Network, Tohoku University
Masahiro Goto: Research and Services Division of Materials Data and Integrated System, National Institute for Materials Science

DOI: https://doi.org/10.1038/s41598-018-34493-6
Journal volume & issue: Vol. 8, no. 1
pp. 1 – 7

Abstract

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Abstract Conversion between spin and charge currents is essential in spintronics, since it enables spin-orbit-torque magnetization switching, spin-current-driven thermoelectric generation, and nano-scale thermal energy control. To realize efficient spin-charge conversion, a variety of mechanisms, including spin Hall effects, Rashba-Edelstein effects, and spin-momentum locking in topological insulators, have been investigated and more comprehensive material exploration is necessary. Here we demonstrate high-throughput screening of spin-charge conversion materials by means of the spin Peltier effect (SPE). This is enabled by combining recently-developed SPE-imaging techniques with combinatorial materials science; using a composition-spread alloy film formed on a magnetic insulator, we observe the SPE-induced temperature change due to the spin Hall effect and obtain a continuous mapping of its composition dependence from the single sample. The distribution of the SPE signals reflects local spin-charge conversion capability in the alloy owing to unique heat-generation nature of the SPE. This combinatorial approach will accelerate materials research towards high-performance spintronic devices.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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