Spin-current version of solar cells in non-centrosymmetric magnetic insulators

Masahiro Sato; Hiroaki Ishizuka

doi:10.1117/12.2567220

1 September 2020 Spin-current version of solar cells in non-centrosymmetric magnetic insulators

Masahiro Sato, Hiroaki Ishizuka

Proceedings Volume 11470, Spintronics XIII; 114700W (2020) https://doi.org/10.1117/12.2567220
Event: SPIE Nanoscience + Engineering, 2020, Online Only

Abstract

Photovoltaic effect, e.g., solar cells, converts light into DC electric current. This phenomenon takes place in various setups such as in noncentrosymmetric crystals and semiconductor pn junctions. Recently, we proposed a theory for producing DC spin current in magnets using electromagnetic waves, i.e., the spin-current counterpart of the solar cells. Our calculation shows that the nonlinear conductivity for the spin current is nonzero in a variety of noncentrosymmetric magnets, implying that the phenomenon is ubiquitous in inversion-asymmetric materials with magnetic excitations. Intuitively, this phenomenon is a bulk photovoltaic effect of magnetic excitations, where electrons and holes, visible light, and inversion-asymmetric semiconductors are replaced with magnons or spinons, THz or GHz waves, and asymmetric magnetic insulators, respectively. We also show that the photon- driven spin current is shift current type, and as a result, the current is stable against impurity scattering. This bulk photovoltaic spin current is in sharp contrast to that of well-known spin pumping that takes place at the interface between a magnet and a metal.

Conference Presentation

Citation Download Citation

Masahiro Sato and Hiroaki Ishizuka "Spin-current version of solar cells in non-centrosymmetric magnetic insulators", Proc. SPIE 11470, Spintronics XIII, 114700W (1 September 2020); https://doi.org/10.1117/12.2567220

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