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Polymorphism of dislocation core structures at the atomic scale

Author

Listed:
  • Zhongchang Wang

    (WPI, Advanced Institute for Materials Research, Tohoku University)

  • Mitsuhiro Saito

    (WPI, Advanced Institute for Materials Research, Tohoku University)

  • Keith P. McKenna

    (University of York)

  • Yuichi Ikuhara

    (WPI, Advanced Institute for Materials Research, Tohoku University
    Institute of Engineering Innovation, The University of Tokyo
    Nanostructures Research Laboratory, Japan Fine Ceramics Center
    Center for Elements Strategy Initiative for Structure Materials, Kyoto University)

Abstract

Dislocation defects together with their associated strain fields and segregated impurities are of considerable significance in many areas of materials science. However, their atomic-scale structures have remained extremely challenging to resolve, limiting our understanding of these ubiquitous defects. Here, by developing a complex modelling approach in combination with bicrystal experiments and systematic atomic-resolution imaging, we are now able to pinpoint individual dislocation cores at the atomic scale, leading to the discovery that even simple magnesium oxide can exhibit polymorphism of core structures for a given dislocation species. These polymorphic cores are associated with local variations in strain fields, segregation of defects, and electronic states, adding a new dimension to understanding the properties of dislocations in real materials. The findings advance our fundamental understanding of basic behaviours of dislocations and demonstrate that quantitative prediction and characterization of dislocations in real materials is possible.

Suggested Citation

  • Zhongchang Wang & Mitsuhiro Saito & Keith P. McKenna & Yuichi Ikuhara, 2014. "Polymorphism of dislocation core structures at the atomic scale," Nature Communications, Nature, vol. 5(1), pages 1-7, May.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms4239
    DOI: 10.1038/ncomms4239
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