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Multiple Topological Magnetism in van der Waals Heterostructure of MnTe<sub>2</sub>/ZrS<sub>2</sub>

Zhonglin He, Kaiying Dou, Wenhui Du, Ying Dai, Baibiao Huang, Yandong Ma

2022Nano Letters25 citationsDOI

Abstract

Topological magnetism in low-dimensional systems is of fundamental and practical importance in condensed-matter physics and material science. Here, using first-principles and Monte Carlo simulations, we present that multiple topological magnetism (i.e., skyrmion and bimeron) can survive in van der Waals heterostructure MnTe2/ZrS2. Arising from interlayer coupling, MnTe2/ZrS2 can harbor a large Dzyaloshinskii-Moriya interaction. This, combined with exchange interaction, yields an intriguing skyrmion phase under a tiny magnetic field of 75 mT. Meanwhile, upon harnessing a small electric field, magnetic bimeron can be observed in MnTe2/ZrS2, suggesting the existence of multiple topological magnetism. Through interlayer sliding, both topological magnetisms can be switched on–off. In addition, the impacts of d∥ and Keff on these spin textures are revealed, and a dimensionless parameter κ is utilized to describe their joint effect. These explored phenomena and insights not only are useful for fundamental research in topological magnetism but also enable novel applications in nanodevices.

Topics & Concepts

Magnetismvan der Waals forceCondensed matter physicsPhysicsTopology (electrical circuits)SkyrmionSpin (aerodynamics)Coupling (piping)Quantum mechanicsMaterials scienceCombinatoricsMoleculeMathematicsThermodynamicsMetallurgy2D Materials and ApplicationsTopological Materials and PhenomenaAdvanced Condensed Matter Physics
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