Wide-Range Probing of Dzyaloshinskii-Moriya Interaction

TL;DR

This paper introduces a versatile experimental method to measure the Dzyaloshinskii-Moriya interaction (DMI) across a broad range, surpassing previous limitations, and enabling better characterization of magnetic phenomena relevant to nanotechnology.

Contribution

A novel experimental scheme that quantifies DMI over a wide range using angular dependence of asymmetric domain wall motion, applicable even when DMI exceeds magnetic field strengths.

Findings

Successfully measures large DMI values beyond magnetic field limits

Provides a standard technique for wide-range DMI quantification

Enhances understanding of DMI's role in magnetic nanostructures

Abstract

Dzyaloshinskii-Moriya interaction (DMI) in magnetic objects is of enormous interest, because it generates a built-in chirality of magnetic domain walls (DWs) and topologically-protected skyrmions for efficient motion driven by spin-orbit torques. Because of its importance for perspective applications and academic curiosities, many experimental efforts have been devoted to DMI investigation. However, current experimental probing techniques cover only limited ranges of the DMI with specific sample requirements, and there are no versatile techniques covering a wide range of DMI. Here, we present a unique experimental scheme to quantify DMI over a wide range based on the angular dependence of asymmetric DW motion. It can determine DMI even larger than the maximum magnetic field strength, demonstrating that various strengths of DMI can be quantified using a single measurement setup. This scheme provides a standard technique over a wide range of DMI, which is essential to DMI-related emerging fields in nanotechnology.