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Ferroelectric solitons crafted in epitaxial bismuth ferrite superlattices

Author

Listed:
  • Vivasha Govinden

    (University of New South Wales Sydney)

  • Peiran Tong

    (Zhejiang University)

  • Xiangwei Guo

    (Zhejiang University
    Zhejiang University
    Zhejiang University)

  • Qi Zhang

    (University of New South Wales Sydney)

  • Sukriti Mantri

    (University of Arkansas)

  • Mohammad Moein Seyfouri

    (University of New South Wales Sydney
    University of New South Wales)

  • Sergei Prokhorenko

    (University of Arkansas)

  • Yousra Nahas

    (University of Arkansas)

  • Yongjun Wu

    (Zhejiang University
    Zhejiang University)

  • Laurent Bellaiche

    (University of Arkansas)

  • Tulai Sun

    (Zhejiang University
    Zhejiang University of Technology)

  • He Tian

    (Zhejiang University
    Zhengzhou University)

  • Zijian Hong

    (Zhejiang University
    Zhejiang University)

  • Nagarajan Valanoor

    (University of New South Wales Sydney)

  • Daniel Sando

    (University of New South Wales Sydney
    University of Canterbury)

Abstract

In ferroelectrics, complex interactions among various degrees of freedom enable the condensation of topologically protected polarization textures. Known as ferroelectric solitons, these particle-like structures represent a new class of materials with promise for beyond-CMOS technologies due to their ultrafine size and sensitivity to external stimuli. Such polarization textures have scarcely been demonstrated in multiferroics. Here, we present evidence for ferroelectric solitons in (BiFeO3)/(SrTiO3) superlattices. High-resolution piezoresponse force microscopy and Cs-corrected high-angle annular dark-field scanning transmission electron microscopy reveal a zoo of topologies, and polarization displacement mapping of planar specimens reveals center-convergent/divergent topological defects as small as 3 nm. Phase-field simulations verify that some of these structures can be classed as bimerons with a topological charge of ±1, and first-principles-based effective Hamiltonian computations show that the coexistence of such structures can lead to non-integer topological charges, a first observation in a BiFeO3-based system. Our results open new opportunities in multiferroic topotronics.

Suggested Citation

  • Vivasha Govinden & Peiran Tong & Xiangwei Guo & Qi Zhang & Sukriti Mantri & Mohammad Moein Seyfouri & Sergei Prokhorenko & Yousra Nahas & Yongjun Wu & Laurent Bellaiche & Tulai Sun & He Tian & Zijian , 2023. "Ferroelectric solitons crafted in epitaxial bismuth ferrite superlattices," Nature Communications, Nature, vol. 14(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39841-3
    DOI: 10.1038/s41467-023-39841-3
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    References listed on IDEAS

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