Room temperature spin thermoelectrics in metallic films
Considering metallic films at room temperature, we present the first theoretical study of the spin Nernst and thermal Edelstein effects which takes into account dynamical spin-orbit coupling, i.e., direct spin-orbit coupling with the vibrating lattice (phonons) and impurities. This gives rise to two...
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Veröffentlicht in: | arXiv.org 2014-09 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Considering metallic films at room temperature, we present the first theoretical study of the spin Nernst and thermal Edelstein effects which takes into account dynamical spin-orbit coupling, i.e., direct spin-orbit coupling with the vibrating lattice (phonons) and impurities. This gives rise to two novel processes, namely a dynamical Elliott-Yafet spin relaxation and a dynamical side-jump mechanism. Both are the high-temperature counterparts of the well-known \(T = 0\) Elliott-Yafet and side-jump, central to the current understanding of the spin Hall, spin Nernst and Edelstein effects at low \(T\). We consider the experimentally relevant regime \(T > T_D\), with \(T_D\) the Debye temperature, as the latter is lower than room temperature in transition metals such as Pt, Au and Ta typically employed in spin injection/extraction experiments. We show that the interplay between intrinsic (Bychkov-Rashba type) and extrinsic (dynamical) spin-orbit coupling yields a nonlinear \(T\)- dependence of the spin Nernst and spin Hall conductivities. |
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ISSN: | 2331-8422 |
DOI: | 10.48550/arxiv.1409.1809 |