Litcius/Paper detail

Exchange-bias controlled correlations in magnetically encapsulated twisted van der Waals dichalcogenides

D Soriano, J L Lado

2020Journal of Physics D Applied Physics14 citationsDOIOpen Access PDF

Abstract

Abstract Twisted van der Waals materials have become a paradigmatic platform to realize exotic correlated states of matter. Here, we show that a twisted dichalcogenide bilayer (WSe 2 ) encapsulated between a magnetic van der Waals material (CrBr 3 ) features flat bands with tunable valley and spin flavors. We demonstrate that, when electron–electron interactions are included, spin-ferromagnetic and valley-ferromagnetic states emerge in the flat bands, stemming from the interplay between correlations, intrinsic spin–orbit coupling (SOC) and exchange proximity effects. We show that the specific symmetry broken state is controlled by the relative alignment of the magnetization of the encapsulation, demonstrating the emergence of correlated states controlled by exchange bias. Our results put forward a new van der Waals heterostructure where symmetry broken states emerge from a genuine interplay between twist engineering, SOC and exchange proximity, providing a powerful starting point to explore exotic collective states of matter.

Topics & Concepts

van der Waals forceCondensed matter physicsPhysicsBilayerSymmetry (geometry)Coupling (piping)Symmetry breakingSpin (aerodynamics)TwistFerromagnetismQuantum mechanicsChemistryExchange interactionNanotechnologyState (computer science)Materials scienceVan der Waals surfaceVan der Waals strainTheorem of corresponding statesInductive couplingMagnetizationDLVO theoryBound stateHeterojunctionSpin states2D Materials and ApplicationsChemical and Physical Properties of MaterialsGraphene research and applications