Spirals and skyrmions in antiferromagnetic triangular lattices

In this work, we study realizations of spirals and skyrmions in two-dimensional antiferromagnets with a triangular lattice on an inversion-symmetry-breaking substrate. As a possible material realization, we investigate the adsorption of transition-metal atoms (Cr, Mn, Fe, or Co) on a monolayer of Mo...

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Veröffentlicht in:	Physical review materials 2021-05, Vol.5 (5), Article 054401
Hauptverfasser:	Fang, Wuzhang, Raeliarijaona, Aldo, Chang, Po-Hao, Kovalev, Alexey A., Belashchenko, Kirill D.
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Sprache:	eng
Schlagworte:	MATERIALS SCIENCE skyrmions spirals
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creator	Fang, Wuzhang Raeliarijaona, Aldo Chang, Po-Hao Kovalev, Alexey A. Belashchenko, Kirill D.
description	In this work, we study realizations of spirals and skyrmions in two-dimensional antiferromagnets with a triangular lattice on an inversion-symmetry-breaking substrate. As a possible material realization, we investigate the adsorption of transition-metal atoms (Cr, Mn, Fe, or Co) on a monolayer of MoS2, WS2, or WSe2 and obtain the exchange, anisotropy, and Dzyaloshinskii-Moriya interaction parameters using first-principles calculations. Using energy minimization and parallel-tempering Monte Carlo simulations, we determine the magnetic phase diagrams for a wide range of interaction parameters. We find that skyrmion lattices can appear even with weak Dzyaloshinskii-Moriya interactions, but their stability is hindered by magnetic anisotropy. However, a weak easy plane magnetic anisotropy can be beneficial for stabilizing the skyrmion phase. Our results suggest that Cr/MoS2, Fe/MoS2, and Fe/WSe2 interfaces can host spin spirals formed from the 120 degrees antiferromagnetic states. Our results further suggest that for interfaces, such as Fe/MoS2, the Dzyaloshinskii-Moriya interaction is strong enough to drive the system into a three-sublattice skyrmion lattice in the presence of experimentally feasible external magnetic field.
doi_str_mv	10.1103/PhysRevMaterials.5.054401
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title	Spirals and skyrmions in antiferromagnetic triangular lattices
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