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arxiv: 2502.03055 · v2 · pith:QAZSDLVS · submitted 2025-02-05 · cond-mat.mtrl-sci · cond-mat.mes-hall

Imprinting of skyrmions and bimerons in an antiferromagnet

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classification cond-mat.mtrl-sci cond-mat.mes-hall
keywords imprintingafmsantiferromagneticbimeronsdiscontinuitiesnucleatingpropertiesskyrmions
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Topologically protected magnetic states in condensed matter physics, particularly antiferromagnetic (AFM) skyrmions (Sks) and bimerons (Bms), offer promising prospects for terahertz dynamics and sustained current-induced motion, thanks to their compensating multiple sub-lattice structure. However, nucleating AFM Sks and Bms is challenging due to the lack of net magnetization. Previous attempts to imprint pre-defined Sks and Bms in a ferromagnet (FM) and transfer them to an AFM using interfacial exchange bias in FM/AFM heterostructures have been hindered by complex multilayers with discontinuities, polycrystallinity, or multipartite chiral AFMs. Employing atomistic spin simulations, we demonstrate the viability of texture imprinting for nucleating Sks and Bms in AFMs, using a prototypical bipartite AFM layer in a multilayer structure free from discontinuities. Such imprinting is a crucial step towards understanding the static and dynamic properties of natural antiferromagnetic textures and their unique properties.

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