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An orbitally derived single-atom magnetic memory

Author

Listed:
  • Brian Kiraly

    (Radboud University)

  • Alexander N. Rudenko

    (Radboud University
    Wuhan University
    Ural Federal University)

  • Werner M. J. Weerdenburg

    (Radboud University)

  • Daniel Wegner

    (Radboud University)

  • Mikhail I. Katsnelson

    (Radboud University)

  • Alexander A. Khajetoorians

    (Radboud University)

Abstract

A magnetic atom epitomizes the scaling limit for magnetic information storage. Individual atomic spins have recently exhibited magnetic remanence, a requirement for magnetic memory. However, such memory has been only realized on thin insulating surfaces, removing potential tunability via electronic gating or exchange-driven magnetic coupling. Here, we show a previously unobserved mechanism for single-atom magnetic storage based on bistability in the orbital population, or so-called valency, of an individual Co atom on semiconducting black phosphorus (BP). Ab initio calculations reveal that distance-dependent screening from the BP surface stabilizes the two distinct valencies, each with a unique orbital population, total magnetic moment, and spatial charge density. Excellent correspondence between the measured and predicted charge densities reveal that such orbital configurations can be accessed and manipulated without a spin-sensitive readout mechanism. This orbital memory derives stability from the energetic barrier to atomic relaxation, demonstrating the potential for high-temperature single-atom information storage.

Suggested Citation

  • Brian Kiraly & Alexander N. Rudenko & Werner M. J. Weerdenburg & Daniel Wegner & Mikhail I. Katsnelson & Alexander A. Khajetoorians, 2018. "An orbitally derived single-atom magnetic memory," Nature Communications, Nature, vol. 9(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-06337-4
    DOI: 10.1038/s41467-018-06337-4
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