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Three-dimensional imaging of magnetic domains

Author

Listed:
  • I. Manke

    (Helmholtz Centre Berlin for Materials and Energy (HZB), Institute of Applied Materials)

  • N. Kardjilov

    (Helmholtz Centre Berlin for Materials and Energy (HZB), Institute of Applied Materials)

  • R. Schäfer

    (Leibniz Institute for Solid State and Materials Research (IFW) Dresden, Institute for Metallic Materials)

  • A. Hilger

    (Helmholtz Centre Berlin for Materials and Energy (HZB), Institute of Applied Materials)

  • M. Strobl

    (Helmholtz Centre Berlin for Materials and Energy (HZB), Institute of Applied Materials)

  • M. Dawson

    (Helmholtz Centre Berlin for Materials and Energy (HZB), Institute of Applied Materials
    University of Salford)

  • C. Grünzweig

    (Paul Scherrer Institut)

  • G. Behr

    (Leibniz Institute for Solid State and Materials Research (IFW) Dresden, Institute for Metallic Materials)

  • M. Hentschel

    (Federal Institute for Materials Research and Testing (BAM), VIII.52, X-Ray Topography)

  • C. David

    (Paul Scherrer Institut)

  • A. Kupsch

    (Federal Institute for Materials Research and Testing (BAM), VIII.52, X-Ray Topography)

  • A. Lange

    (Federal Institute for Materials Research and Testing (BAM), VIII.52, X-Ray Topography)

  • J. Banhart

    (Helmholtz Centre Berlin for Materials and Energy (HZB), Institute of Applied Materials
    Technische Universität Berlin)

Abstract

Magnetic domains have been the subject of much scientific investigation since their theoretical existence was first postulated by P.-E. Weiss over a century ago. Up to now, the three-dimensional (3D) domain structure of bulk magnets has never been observed owing to the lack of appropriate experimental methods. Domain analysis in bulk matter thus remains one of the most challenging tasks in research on magnetic materials. All current domain observation methods are limited to studying surface domains or thin magnetic films. As the properties of magnetic materials are strongly affected by their domain structure, the development of a technique capable of investigating the shape, size and distribution of individual domains in three dimensions is of great importance. Here, we show that the novel technique of Talbot-Lau neutron tomography with inverted geometry enables direct imaging of the 3D network of magnetic domains within the bulk of FeSi crystals.

Suggested Citation

  • I. Manke & N. Kardjilov & R. Schäfer & A. Hilger & M. Strobl & M. Dawson & C. Grünzweig & G. Behr & M. Hentschel & C. David & A. Kupsch & A. Lange & J. Banhart, 2010. "Three-dimensional imaging of magnetic domains," Nature Communications, Nature, vol. 1(1), pages 1-6, December.
    • Handle: RePEc:nat:natcom:v:1:y:2010:i:1:d:10.1038_ncomms1125
    DOI: 10.1038/ncomms1125
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