Asymmetric Antibimerons: Statics and Dynamics

The nontrivial topological spin textures, such as magnetic skyrmions, are of great interest due to their potential use as information carriers in spintronic memory and logic. Here, we theoretically predict an asymmetric antibimeron (AAB) -- a topological texture in an in-plane magnetized chiral ferr...

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Veröffentlicht in:	arXiv.org 2024-10
Hauptverfasser:	Vorobyev, Pavel A, Kurebayashi, Daichi, Tretiakov, Oleg A
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Sprache:	eng
Schlagworte:	Asymmetry Ferromagnetic materials Hypothetical particles Particle theory Solitary waves Spin dynamics Symmetry Topology
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description	The nontrivial topological spin textures, such as magnetic skyrmions, are of great interest due to their potential use as information carriers in spintronic memory and logic. Here, we theoretically predict an asymmetric antibimeron (AAB) -- a topological texture in an in-plane magnetized chiral ferromagnet with $D_{2d}$ symmetry, which is yet to be observed experimentally. We show that it can be stabilized by an anisotropic interfacial Dzyaloshinskii-Moriya interaction found in materials with $D_{2d}$ symmetry. Using energy considerations, we explain its asymmetric shape formed of an antivortex and a crescent-shaped vortex of opposite core polarizations. Furthermore, we demonstrate that AABs of opposite topological charge can be stabilized within the same ferromagnetic film, unlike skyrmions in out-of-plane magnetized films. Employing micromagnetic simulations and analytical Thiele's equation approach, we also investigate current-driven dynamics of the AABs, in particular showing that the topological charge of the system can be controllably changed in AAB collisions. Our results shed light on fundamental understanding of asymmetric topological magnetic solitons and provide guidance for their experimental observation in in-plane magnetized ferromagnets.
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subjects	Asymmetry Ferromagnetic materials Hypothetical particles Particle theory Solitary waves Spin dynamics Symmetry Topology
title	Asymmetric Antibimerons: Statics and Dynamics
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