Thermal Skyrmion Diffusion Used in a Reshuffler Device

Overview

Journal Nat Nanotechnol

Specialty Biotechnology

Date 2019 Apr 24

PMID 31011220

Citations 37

Authors

Jakub Zazvorka

Florian Jakobs

Daniel Heinze

Niklas Keil

Sascha Kromin

Samridh Jaiswal

Kai Litzius

Gerhard Jakob

Peter Virnau

Daniele Pinna

Karin Everschor-Sitte

Levente Rozsa

Andreas Donges

Ulrich Nowak

Mathias Klaui

Affiliations

Soon will be listed here.

Abstract

Magnetic skyrmions in thin films can be efficiently displaced with high speed by using spin-transfer torques and spin-orbit torques at low current densities. Although this favourable combination of properties has raised expectations for using skyrmions in devices, only a few publications have studied the thermal effects on the skyrmion dynamics. However, thermally induced skyrmion dynamics can be used for applications such as unconventional computing approaches, as they have been predicted to be useful for probabilistic computing devices. In our work, we uncover thermal diffusive skyrmion dynamics by a combined experimental and numerical study. We probed the dynamics of magnetic skyrmions in a specially tailored low-pinning multilayer material. The observed thermally excited skyrmion motion dominates the dynamics. Analysing the diffusion as a function of temperature, we found an exponential dependence, which we confirmed by means of numerical simulations. The diffusion of skyrmions was further used in a signal reshuffling device as part of a skyrmion-based probabilistic computing architecture. Owing to its inherent two-dimensional texture, the observation of a diffusive motion of skyrmions in thin-film systems may also yield insights in soft-matter-like characteristics (for example, studies of fluctuation theorems, thermally induced roughening and so on), which thus makes it highly desirable to realize and study thermal effects in experimentally accessible skyrmion systems.

Citing Articles

Effects of Chiral Polypeptides on Skyrmion Stability and Dynamics.

Kapon Y, Kammerbauer F, Balland T, Yochelis S, Klaui M, Paltiel Y Nano Lett. 2024; 25(1):306-312.

PMID: 39680908 PMC: 11719627. DOI: 10.1021/acs.nanolett.4c05035.

Imaging magnetic spiral phases, skyrmion clusters, and skyrmion displacements at the surface of bulk CuOSeO.

Marchiori E, Romagnoli G, Schneider L, Gross B, Sahafi P, Jordan A Commun Mater. 2024; 5(1):202.

PMID: 39351280 PMC: 11438600. DOI: 10.1038/s43246-024-00647-5.

Rolling Motion of Rigid Skyrmion Crystallites Induced by Chiral Lattice Torque.

Jin H, Chen J, van der Laan G, Hesjedal T, Liu Y, Zhang S Nano Lett. 2024; 24(39):12226-12232.

PMID: 39297736 PMC: 11450986. DOI: 10.1021/acs.nanolett.4c03336.

Gesture recognition with Brownian reservoir computing using geometrically confined skyrmion dynamics.

Beneke G, Winkler T, Raab K, Brems M, Kammerbauer F, Gerhards P Nat Commun. 2024; 15(1):8103.

PMID: 39284831 PMC: 11405713. DOI: 10.1038/s41467-024-52345-y.

Confined antiskyrmion motion driven by electric current excitations.

Guang Y, Zhang X, Liu Y, Peng L, Yasin F, Karube K Nat Commun. 2024; 15(1):7701.

PMID: 39227610 PMC: 11371833. DOI: 10.1038/s41467-024-52072-4.