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Current-driven writing process in anti-ferromagnetic Mn₂Au for memory applications

Physics

Current-driven writing process in anti-ferromagnetic Mn₂Au for memory applications

S. Reimers, Y. Lytvynenko, et al.

Explore the groundbreaking research by S. Reimers and colleagues on current pulse-driven Néel vector rotation in metallic antiferromagnets. Their work with Mn₂Au reveals reversible reorientation of the Néel vector across device structures, promising stability for memory applications without significant heating. Don't miss this exciting advancement in antiferromagnetic spintronics!

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Playback language: English
Abstract
Current pulse driven Néel vector rotation in metallic antiferromagnets is one of the most promising concepts in antiferromagnetic spintronics. We show microscopically that the Néel vector of epitaxial thin films of the prototypical compound Mn₂Au can be reoriented reversibly in the complete area of cross shaped device structures using single current pulses. The resulting domain pattern with aligned staggered magnetization is long term stable enabling memory applications. We achieve this switching with low heating of ≈20 K, which is promising regarding fast and efficient devices without the need for thermal activation. Current polarity dependent reversible domain wall motion demonstrates a Néel spin-orbit torque acting on the domain walls.
Publisher
Nature Communications
Published On
Apr 03, 2023
Authors
S. Reimers, Y. Lytvynenko, Y. R. Niu, E. Golias, B. Sarpi, L. S. I. Veiga, T. Denneulin, A. Kovács, R. E. Dunin-Borkowski, J. Bläßer, M. Kläui, M. Jourdan
Tags
Néel vector
antiferromagnets
spintronics
Mn₂Au
domain wall motion
memory applications
spin-orbit torque

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