Hybrid chiral domain walls and skyrmions in magnetic multilayers

TL;DR

This paper explores complex hybrid chiral magnetic structures in multilayer films, revealing how interlayer interactions influence domain wall reorientation and proposing methods to measure DMI in these systems.

Contribution

It demonstrates the emergence of hybrid chiral textures in multilayer systems and introduces a method to quantify DMI considering these complex structures.

Findings

Thickness-dependent reorientation of domain walls confirmed experimentally.

Hybrid chiral structures arise due to interlayer interactions.

A method to measure DMI from static domain profiles is proposed.

Abstract

Noncollinear spin textures in ferromagnetic ultrathin films are currently the subject of renewed interest since the discovery of the interfacial Dzyaloshinskii-Moriya interaction (DMI). This antisymmetric exchange interaction selects a given chirality for the spin textures and allows stabilising configurations with nontrivial topology. Moreover, it has many crucial consequences on the dynamical properties of these topological structures, including chiral domain walls (DWs) and magnetic skyrmions. In the recent years the study of noncollinear spin textures has been extended from single ultrathin layers to magnetic multilayers with broken inversion symmetry. This extension of the structures in the vertical dimension allows very efficient current-induced motion and room-temperature stability for both N\'eel DWs and skyrmions. Here we show how in such multilayered systems the interlayer interactions can actually lead to more complex, hybrid chiral magnetisation arrangements. The described thickness-dependent reorientation of DWs is experimentally confirmed by studying demagnetised multilayers through circular dichroism in x-ray resonant magnetic scattering. We also demonstrate a simple yet reliable method for determining the magnitude of the DMI from static domains measurements even in the presence of these hybrid chiral structures, by taking into account the actual profile of the DWs. The advent of these novel hybrid chiral textures has far-reaching implications on how to stabilise and manipulate DWs as well as skymionic structures in magnetic multilayers.