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Writing and reading antiferromagnetic Mn2Au by Néel spin-orbit torques and large anisotropic magnetoresistance

Author

Listed:
  • S. Yu. Bodnar

    (Johannes Gutenberg-Universität)

  • L. Šmejkal

    (Johannes Gutenberg-Universität
    Academy of Sciences of the Czech Republic
    Charles University)

  • I. Turek

    (Charles University)

  • T. Jungwirth

    (Academy of Sciences of the Czech Republic
    University of Nottingham, University Park)

  • O. Gomonay

    (Johannes Gutenberg-Universität)

  • J. Sinova

    (Johannes Gutenberg-Universität)

  • A. A. Sapozhnik

    (Johannes Gutenberg-Universität)

  • H.-J. Elmers

    (Johannes Gutenberg-Universität)

  • M. Kläui

    (Johannes Gutenberg-Universität)

  • M. Jourdan

    (Johannes Gutenberg-Universität)

Abstract

Using antiferromagnets as active elements in spintronics requires the ability to manipulate and read-out the Néel vector orientation. Here we demonstrate for Mn2Au, a good conductor with a high ordering temperature suitable for applications, reproducible switching using current pulse generated bulk spin-orbit torques and read-out by magnetoresistance measurements. Reversible and consistent changes of the longitudinal resistance and planar Hall voltage of star-patterned epitaxial Mn2Au(001) thin films were generated by pulse current densities of ≃107 A/cm2. The symmetry of the torques agrees with theoretical predictions and a large read-out magnetoresistance effect of more than ≃6% is reproduced by ab initio transport calculations.

Suggested Citation

  • S. Yu. Bodnar & L. Šmejkal & I. Turek & T. Jungwirth & O. Gomonay & J. Sinova & A. A. Sapozhnik & H.-J. Elmers & M. Kläui & M. Jourdan, 2018. "Writing and reading antiferromagnetic Mn2Au by Néel spin-orbit torques and large anisotropic magnetoresistance," Nature Communications, Nature, vol. 9(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-017-02780-x
    DOI: 10.1038/s41467-017-02780-x
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