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Direct observation of the alignment of ferromagnetic spins by antiferromagnetic spins

Author

Listed:
  • F. Nolting

    (Advanced Light Source
    Lawrence Berkeley National Laboratory)

  • A. Scholl

    (Advanced Light Source
    Lawrence Berkeley National Laboratory)

  • J. Stöhr

    (Almaden Research Center)

  • J. W. Seo

    (Institute de Physique, University of Neuchâtel
    Zürich Research Laboratory)

  • J. Fompeyrine

    (Zürich Research Laboratory)

  • H. Siegwart

    (Zürich Research Laboratory)

  • J.-P. Locquet

    (Zürich Research Laboratory)

  • S. Anders

    (Advanced Light Source
    Lawrence Berkeley National Laboratory)

  • J. Lüning

    (Almaden Research Center)

  • E. E. Fullerton

    (Almaden Research Center)

  • M. F. Toney

    (Almaden Research Center)

  • M. R. Scheinfein

    (Department of Physics and Astronomy Arizona State University)

  • H. A. Padmore

    (Advanced Light Source
    Lawrence Berkeley National Laboratory)

Abstract

The arrangement of spins at interfaces in a layered magnetic material often has an important effect on the properties of the material. One example of this is the directional coupling between the spins in an antiferromagnet and those in an adjacent ferromagnet, an effect first discovered1 in 1956 and referred to as exchange bias. Because of its technological importance for the development of advanced devices such as magnetic read heads2 and magnetic memory cells3, this phenomenon has received much attention4,5. Despite extensive studies, however, exchange bias is still poorly understood, largely due to the lack of techniques capable of providing detailed information about the arrangement of magnetic moments near interfaces. Here we present polarization-dependent X-ray magnetic dichroism spectro-microscopy that reveals the micromagnetic structure on both sides of a ferromagnetic–antiferromagnetic interface. Images of thin ferromagnetic Co films grown on antiferromagnetic LaFeO3 show a direct link between the arrangement of spins in each material. Remanent hysteresis loops, recorded for individual ferromagnetic domains, show a local exchange bias. Our results imply that the alignment of the ferromagnetic spins is determined, domain by domain, by the spin directions in the underlying antiferromagnetic layer.

Suggested Citation

  • F. Nolting & A. Scholl & J. Stöhr & J. W. Seo & J. Fompeyrine & H. Siegwart & J.-P. Locquet & S. Anders & J. Lüning & E. E. Fullerton & M. F. Toney & M. R. Scheinfein & H. A. Padmore, 2000. "Direct observation of the alignment of ferromagnetic spins by antiferromagnetic spins," Nature, Nature, vol. 405(6788), pages 767-769, June.
  • Handle: RePEc:nat:nature:v:405:y:2000:i:6788:d:10.1038_35015515
    DOI: 10.1038/35015515
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    Cited by:

    1. S. P. Bommanaboyena & D. Backes & L. S. I. Veiga & S. S. Dhesi & Y. R. Niu & B. Sarpi & T. Denneulin & A. Kovács & T. Mashoff & O. Gomonay & J. Sinova & K. Everschor-Sitte & D. Schönke & R. M. Reeve &, 2021. "Readout of an antiferromagnetic spintronics system by strong exchange coupling of Mn2Au and Permalloy," Nature Communications, Nature, vol. 12(1), pages 1-7, December.

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