Magneto-gyrotropic effects in semiconductor quantum wells (review)
V. V. Bel'kov, S. D. Ganichev
TL;DR
This review discusses magneto-gyrotropic photogalvanic effects in semiconductor quantum wells, covering experimental data, phenomenological and microscopic models, and potential applications of these spin-dependent phenomena.
Contribution
It provides a comprehensive overview of experimental findings, theoretical models, and applications related to magneto-gyrotropic effects in quantum wells.
Findings
Experimental evidence of spin-dependent scattering effects.
Development of phenomenological and microscopic models.
Potential applications in spintronic devices.
Abstract
Magneto-gyrotropic photogalvanic effects in quantum wells are reviewed. We discuss experimental data, results of phenomenological analysis and microscopic models of these effects. The current flow is driven by spin-dependent scattering in low-dimensional structures gyrotropic media resulted in asymmetry of photoexcitation and relaxation processes. Several applications of the effects are also considered.
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