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Emergent topological polarization textures in relaxor ferroelectrics

Author

Listed:
  • Maksim Eremenko

    (National Institute of Standards and Technology
    Oak Ridge National Laboratory
    Theiss Research)

  • Victor Krayzman

    (National Institute of Standards and Technology
    Theiss Research)

  • Semen Gorfman

    (Tel Aviv University)

  • Alexei Bosak

    (European Synchrotron Radiation Facility)

  • Helen Y. Playford

    (Science and Technology Facilities Council)

  • Philip A. Chater

    (Science and Technology Facilities Council)

  • Bruce Ravel

    (National Institute of Standards and Technology)

  • William J. Laws

    (National Institute of Standards and Technology)

  • Feng Ye

    (Oak Ridge National Laboratory)

  • Arianna Minelli

    (Oak Ridge National Laboratory)

  • Bi-Xia Wang

    (Simon Fraser University)

  • Zuo-Guang Ye

    (Simon Fraser University)

  • Matthew G. Tucker

    (Oak Ridge National Laboratory)

  • Igor Levin

    (National Institute of Standards and Technology)

Abstract

Relaxor ferroelectrics underpin high-performance actuators and sensors, yet the nature of polar heterogeneities driving their broadband dielectric response remains debated. Using a unified, multimodal structural refinement framework— simultaneously fitting complementary X-ray and neutron total scattering, X-ray absorption spectra, and diffuse scattering—we reconstruct 3D mesoscale polarization maps in the classic relaxor system PbMg1/3Nb2/3O3–PbTiO3. We uncover self-organized swirling polarization textures with half-skyrmion (meron) vortices, challenging models of independent polar nanoregions. These textures, characterized by smooth changes in the polarization direction, originate from overlapping volumes in which the projections of locally correlated polarization vectors onto each volume’s long axis share the same sign. Vortex cores correlate strongly with local charge and strain gradients imposed by compositional heterogeneities. In this work, our results suggest that chemical disorder, acting via depolarizing and strain fields, stabilizes topological vortex textures of the polarization field, offering a route for engineering new dielectric and ferroelectric functionalities.

Suggested Citation

  • Maksim Eremenko & Victor Krayzman & Semen Gorfman & Alexei Bosak & Helen Y. Playford & Philip A. Chater & Bruce Ravel & William J. Laws & Feng Ye & Arianna Minelli & Bi-Xia Wang & Zuo-Guang Ye & Matth, 2025. "Emergent topological polarization textures in relaxor ferroelectrics," Nature Communications, Nature, vol. 16(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62658-1
    DOI: 10.1038/s41467-025-62658-1
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    References listed on IDEAS

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