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Spin–orbit correlations and exchange-bias control in twisted Janus dichalcogenide multilayers

David Soriano, José L. Lado

2021New Journal of Physics11 citationsDOIOpen Access PDF

Abstract

Abstract Janus dichalcogenide multilayers provide a paradigmatic platform to engineer electronic phenomena dominated by spin–orbit coupling. Their unique spin–orbit effects stem from the mirror symmetry breaking in each layer, which induces a colossal Rashba spin–orbit effect in comparison with the conventional dichalcogenide counterparts. Here we put forward twisted Janus dichalcogenide bilayers as a simple platform to realize spin–orbit correlated states. We demonstrate the emergence of flat bands featuring strong spin-momentum locking and the emergence of symmetry broken states with associated non-coplanar magnetization when interactions are included. We further show that the symmetry broken states can be controlled by means of a magnetic substrate, strongly impacting the non-coplanar magnetic texture of the moire unit cell. Our results put forward twisted Janus multilayers as a powerful platform to explore spin–orbit correlated physics, and highlighting the versatility of magnetic substrates to control unconventional moire magnetism.

Topics & Concepts

JanusCondensed matter physicsPhysicsSpin (aerodynamics)Spin–orbit interactionMagnetismSymmetry breakingSymmetry (geometry)NanotechnologyMaterials scienceQuantum mechanicsMathematicsGeometryThermodynamics2D Materials and ApplicationsPerovskite Materials and ApplicationsMultiferroics and related materials
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