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arxiv: 2311.08529 · v1 · pith:33LZUK7Nnew · submitted 2023-11-14 · ❄️ cond-mat.mes-hall · cond-mat.mtrl-sci

Visualizing thickness-dependent magnetic textures in few-layer Cr₂Ge₂Te₆

classification ❄️ cond-mat.mes-hall cond-mat.mtrl-sci
keywords magnetictextfieldthickness-dependentappliedatomicconfigurationsdependence
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Magnetic ordering in two-dimensional (2D) materials has recently emerged as a promising platform for data storage, computing, and sensing. To advance these developments, it is vital to gain a detailed understanding of how the magnetic order evolves on the nanometer-scale as a function of the number of atomic layers and applied magnetic field. Here, we image few-layer $\text{Cr}_2\text{Ge}_2\text{Te}_6$ using a combined scanning superconducting quantum interference device and atomic force microscopy probe. Maps of the material's stray magnetic field as a function of applied magnetic field reveal its magnetization per layer as well as the thickness-dependent magnetic texture. Using a micromagnetic model, we correlate measured stray-field patterns with the underlying magnetization configurations, including labyrinth domains and skyrmionic bubbles. Comparison between real-space images and simulations demonstrates that the layer dependence of the material's magnetic texture is a result of the thickness-dependent balance between crystalline and shape anisotropy. These findings represent an important step towards 2D spintronic devices with engineered spin configurations and controlled dependence on external magnetic fields.

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