Dzyaloshinskii–Moriya‐Interaction‐Like Behavior in Confined Permalloy Nanostructures via Coupled Magnetic Vortices

Abstract

AbstractDzyaloshinskii–Moriya interaction (DMI), one of antisymmetric exchanges, originates from the combination of low structural symmetry and large spin‐orbit coupling and favors magnetization rotations with fixed chirality. Herein, this work reports a DMI‐like behavior in permalloy via coupled vortices in confined structures. Under the in‐plane magnetic fields, continuous reversals of different coupled vortices are directly observed by in situ Lorentz transmission electron microscopy, and reproduced by complementary micromagnetic simulations. The statistical results show that coupled vortices with opposite chirality appear more frequently with the frequency up to about 60%. Such an asymmetric phenomenon mainly arises from a DMI‐like behavior, associated with the increased total energy difference between different ground‐state coupled vortices. Moreover, in the reversal process, the junction between disks accelerates the annihilation of vortices moving toward it and is also the starting point of vortex nucleation. These results provide an effective method to generate a DMI‐like behavior in magnetic systems with symmetry breaking surface and benefit the future development of vortex‐based spintronic devices.