Spincaloritronic signal generation in non-degenerate Si

Hayato Koike (2); Japan); Japan. (2) TDK Corporation; Japan. (3) Osaka Univ.; Masashi Shiraishi (1) ((1) Kyoto Univ.; Naoto Yamashita (1); Shinji Miwa (3); Yoshishige Suzuki (3); Yuichiro Ando (1)

arxiv: 1708.07108 · v1 · pith:6XM5ZV3Unew · submitted 2017-07-13 · ⚛️ physics.app-ph

Spincaloritronic signal generation in non-degenerate Si

Naoto Yamashita (1) , Yuichiro Ando (1) , Hayato Koike (2) , Shinji Miwa (3) , Yoshishige Suzuki (3) , Masashi Shiraishi (1) ((1) Kyoto Univ. , Japan. (2) TDK Corporation , Japan. (3) Osaka Univ.

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classification ⚛️ physics.app-ph

keywords spingenerationsignalspincaloritroniceffectmaterialsnon-degenerateseebeck

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Spincaloritronic signal generation due to thermal spin injection and spin transport is demonstrated in a non-degenerate Si spin valve. The spin-dependent Seebeck effect is used for the spincaloritronic signal generation, and the thermal gradient of about 200 mK at an interface of Fe and Si enables generating a spin voltage of 8 {\mu}V at room temperature. A simple expansion of a conventional spin drift-diffusion model with taking into account the spin-dependent Seebeck effect shows semiconductor materials are quite potential for the spincaloritronic signal generation comparing with metallic materials, which can allow efficient heat recycling in semiconductor spin devices.

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Spincaloritronic signal generation in non-degenerate Si

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