Magnetic solitons due to interfacial chiral interactions

Author:

Paula MelladoORCID,Tapia Ignacio

Abstract

Abstract We study solitons in a zig-zag lattice of magnetic dipoles. The lattice comprises two sublattices of parallel chains with magnetic dipoles at their vertices. Due to orthogonal easy planes of rotation for dipoles belonging to different sublattices, the total dipolar energy of this system is separable into a sum of symmetric and chiral long-ranged interactions between the magnets where the last takes the form of Dzyaloshinskii–Moriya (DM) coupling. For a specific range of values of the offset between sublattices, the dipoles realize an equilibrium magnetic state in the lattice plane, consisting of one chain settled in an antiferromagnetic (AF) parallel configuration and the other in a collinear ferromagnetic fashion. If the offset grows beyond this value, the internal DM field stabilizes two Bloch domain walls at the edges of the AF chain. The dynamics of these solitons is studied by deriving the long-wavelength lagrangian density for the easy axis antiferromagnet. We find that the chiral couplings between sublattices give rise to an effective magnetic field that stabilizes the solitons in the antiferromagnet. When the chains displace respect to each other, an emergent Lorentz force accelerates the domain walls along the lattice.

Funder

Fondecyt

Publisher

IOP Publishing

Subject

Condensed Matter Physics,General Materials Science

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1. Special Issue on Solitons in Quantum Physics;Journal of Physics: Condensed Matter;2024-07-30

2. Chiral Magnetic Phases in Moire Bilayers of Magnetic Dipoles;Advanced Physics Research;2024-02-20

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