2D Layered Ferromagnet: the Emergence of Skyrmions in Transition Metal Dichalcogenides

Recently there is great attraction drawn towards Van der Waals (vdW) ferromagnet since the discovery of ferromagnetism in monolayer CrI₃. Due to the extraordinary topology driven properties, magnetic transition metal dichalcogenides (TMDCs) appear to behave more exotically. In this work, utilizing molecular beam epitaxy, a stable CrTe₂, one of TMDCs, films are fabricated down to monolayer (ML) level. Ferromagnetism is exhibited even down to the 2D insulating limit - 1 ML film. Surprisingly, the topological Hall effect (THE), which manifests the real space topology of magnetic structure in TMDCs, is observed in thicker films (> 6 ML) up to 130 K, a first such observation. Electric transport data and magnetometry data indicate a high possibility of presence of magnetic Skyrmions, real space nanometer-sized quasi-particles with topological spin textures. Although they are found in many systems even at room temperature, but not in TMDCs, until now. The discovery of magnetism in monolayer CrTe₂ and topological magnetic structure in thicker CrTe₂ not only enriches the 2D magnet family and the capability of TMDCs, but also pave a way for all vdW materials based spintronic devices.