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arxiv: 2403.05151 · v1 · pith:D4MFIG3V · submitted 2024-03-08 · cond-mat.mes-hall · cond-mat.mtrl-sci

Imprinting of Antiferromagnetic Vortex States in NiO-Fe Nanostructures

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classification cond-mat.mes-hall cond-mat.mtrl-sci
keywords antiferromagnetmagneticvortexantiferromagneticcouplingexchangeimprintedinterface
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Magnetic vortices are topological spin structures frequently found in ferromagnets, yet novel to antiferromagnets. By combining experiment and theory, we demonstrate that in a nanostructured antiferromagnetic-ferromagnetic NiO(111)-Fe(110) bilayer, a magnetic vortex is naturally stabilized by magnetostatic interactions in the ferromagnet and is imprinted onto the adjacent antiferromagnet via interface exchange coupling. We use micromagnetic simulations to construct a corresponding phase diagram of the stability of the imprinted antiferromagnetic vortex state. Our in depth analysis reveals that the interplay between interface exchange coupling and the antiferromagnet magnetic anisotropy plays a crucial role in locally reorienting the N\'eel vector out-of-plane in the prototypical in-plane antiferromagnet NiO and thereby stabilizing the vortices in the antiferromagnet.

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