# Writing and Reading antiferromagnetic Mn$_2$Au: N\'eel spin-orbit   torques and large anisotropic magnetoresistance

**Authors:** S. Yu. Bodnar, L. \v{S}mejkal, I. Turek, T. Jungwirth, O. Gomonay, J., Sinova, A.A. Sapozhnik, H.-J. Elmers, M. Kl\"aui, and M. Jourdan

arXiv: 1706.02482 · 2018-01-30

## TL;DR

This paper demonstrates reliable switching and readout of the Néel vector in Mn₂Au antiferromagnetic material using Néel spin-orbit torques and magnetoresistance, confirming theoretical predictions and enabling potential ultrafast spintronic applications.

## Contribution

First experimental demonstration of Nél spin-orbit torque induced switching and readout in Mn₂Au, a high-temperature conducting antiferromagnet, with results matching theoretical models.

## Key findings

- Achieved reproducible switching of Nél spin orientation in Mn₂Au.
- Observed a magnetoresistance change of over 6%.
- Results align with ab initio transport calculations.

## Abstract

Antiferromagnets are magnetically ordered materials which exhibit no net moment and thus are insensitive to magnetic fields. Antiferromagnetic spintronics aims to take advantage of this insensitivity for enhanced stability, while at the same time active manipulation up to the natural THz dynamic speeds of antiferromagnets is possible, thus combining exceptional storage density and ultra-fast switching. However, the active manipulation and read-out of the N\'eel vector (staggered moment) orientation is challenging. Recent predictions have opened up a path based on a new spin-orbit torque, which couples directly to the N\'eel order parameter. This N\'eel spin-orbit torque was first experimentally demonstrated in a pioneering work using semimetallic CuMnAs. Here we demonstrate for Mn$_2$Au, a good conductor with a high ordering temperature suitable for applications, reliable and reproducible switching using current pulses and readout by magnetoresistance measurements. The symmetry of the torques agrees with theoretical predictions and a large read-out magnetoresistance effect of more than $\simeq 6$~$\%$ is reproduced by ab initio transport calculations.

## Full text

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## Figures

4 figures with captions in the complete paper: https://tomesphere.com/paper/1706.02482/full.md

## References

26 references — full list in the complete paper: https://tomesphere.com/paper/1706.02482/full.md

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Source: https://tomesphere.com/paper/1706.02482