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MA: Fachverband Magnetismus

MA 46: Surface Magnetism

MA 46.9: Vortrag

Freitag, 21. März 2025, 11:45–12:00, H19

Antiferromagnetic merons in a Mn monolayer on Ta(110) — •Tim Drevelow¹, Felix Zahner², André Kubetzka², Roland Wiesendanger², Stefan Heinze¹, and Kirsten von Bergmann² — ¹Institute of Theoretical Physics and Astrophysics, University of Kiel, Leibnizstraße 15, 24098 Kiel, Germany — ²Department of Physics, University of Hamburg, Jungiusstraße 11, 20355 Hamburg, Germany

Non-collinear topological spin structures in ultrathin transition-metal films are interesting for spintronic applications. When hosted in antiferromagnets, they are robust to external perturbations, possess vanishing demagnetization fields, and the Skyrmion-Hall effect does not occur. Ultrathin Mn-layers are intrinsically antiferromagnetic and exhibit non-collinear spin structures, such as the conical spin structure in Mn on W(110) [1]. Here, using spin-polarized scanning tunneling microscopy and density functional theory, we discover a cycloidal spin spiral and a c(2 × 2) antiferromagnet in Mn mono- and double-layers on the Ta(110) surface, respectively. Micromagnetic simulations on the sublattice reveal a transition of spin spirals into antiferromagnetic, meronic spin structures of non-trivial topology near the interface to the collinear antiferromagnet of the film due to competing anisotropies of the Mn mono- and double-layer.

[1] Yoshida et al. Phys. Rev. Lett. 108, 087205 (2012)

Keywords: density functional theory; magnetic merons; antiferromagnetism; ultrathin films; micromagnetic model