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Exploring physics of ferroelectric domain walls via Bayesian analysis of atomically resolved STEM data

Author

Listed:
  • Christopher T. Nelson

    (Oak Ridge National Laboratory)

  • Rama K. Vasudevan

    (Oak Ridge National Laboratory)

  • Xiaohang Zhang

    (University of Maryland)

  • Maxim Ziatdinov

    (Oak Ridge National Laboratory)

  • Eugene A. Eliseev

    (Institute for Problems of Materials Science, National Academy of Sciences of Ukraine)

  • Ichiro Takeuchi

    (University of Maryland)

  • Anna N. Morozovska

    (Institute of Physics, National Academy of Sciences of Ukraine)

  • Sergei V. Kalinin

    (Oak Ridge National Laboratory)

Abstract

The physics of ferroelectric domain walls is explored using the Bayesian inference analysis of atomically resolved STEM data. We demonstrate that domain wall profile shapes are ultimately sensitive to the nature of the order parameter in the material, including the functional form of Ginzburg-Landau-Devonshire expansion, and numerical value of the corresponding parameters. The preexisting materials knowledge naturally folds in the Bayesian framework in the form of prior distributions, with the different order parameters forming competing (or hierarchical) models. Here, we explore the physics of the ferroelectric domain walls in BiFeO3 using this method, and derive the posterior estimates of relevant parameters. More generally, this inference approach both allows learning materials physics from experimental data with associated uncertainty quantification, and establishing guidelines for instrumental development answering questions on what resolution and information limits are necessary for reliable observation of specific physical mechanisms of interest.

Suggested Citation

  • Christopher T. Nelson & Rama K. Vasudevan & Xiaohang Zhang & Maxim Ziatdinov & Eugene A. Eliseev & Ichiro Takeuchi & Anna N. Morozovska & Sergei V. Kalinin, 2020. "Exploring physics of ferroelectric domain walls via Bayesian analysis of atomically resolved STEM data," Nature Communications, Nature, vol. 11(1), pages 1-12, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-19907-2
    DOI: 10.1038/s41467-020-19907-2
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