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Intrinsic orbital and spin Hall effects in monolayer transition metal dichalcogenides

Sayantika Bhowal, S. Satpathy

2020Physical review. B./Physical review. B91 citationsDOIOpen Access PDF

Abstract

The orbital Hall effect (OHE) is the phenomenon of transverse flow of orbital moment in the presence of an applied electric field. Solids with broken inversion symmetry are expected to exhibit a strong OHE due to the presence of an intrinsic orbital moment at individual momentum points in the Brillouin zone, which in the presence of an applied electric field flows in different directions causing a net orbital Hall current. Here we provide a comprehensive understanding of the effect and its tunability in the monolayer two-dimensional (2D) transition metal dichalcogenides (TMDCs). Both metallic and insulating TMDCs are investigated from full density-functional calculations and effective $d$-band tight-binding models, as well as a minimal four-band model for the valley points that captures the key physics of the system. For the tuning of the OHE, we examine the role of hole doping as well as the change in the band parameters, which, e.g., can be controlled by strain. We demonstrate that the OHE is a more fundamental effect than the spin Hall effect (SHE), with the momentum-space orbital moments inducing a spin moment in the presence of the spin-orbit coupling, leading to the SHE. The physics of the OHE, described here, is relevant for 2D materials with broken inversion symmetry in general, even beyond the TMDCs, providing a broad platform for future research.

Topics & Concepts

MonolayerCondensed matter physicsTransition metalSpin (aerodynamics)Materials scienceSpin Hall effectHall effectPhysicsNanotechnologyChemistrySpin polarizationQuantum mechanicsElectrical resistivity and conductivityElectronCatalysisThermodynamicsBiochemistry2D Materials and ApplicationsGraphene research and applicationsTopological Materials and Phenomena
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