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Emergent chirality in a polar meron to skyrmion phase transition

Author

Listed:
  • Yu-Tsun Shao

    (Cornell University
    University of Southern California)

  • Sujit Das

    (University of California
    Materials Research Centre, Indian Institute of Science)

  • Zijian Hong

    (The Pennsylvania State University
    Zhejiang University)

  • Ruijuan Xu

    (Stanford University
    SLAC National Accelerator Laboratory
    North Carolina State University)

  • Swathi Chandrika

    (Cornell University)

  • Fernando Gómez-Ortiz

    (Universidad de Cantabria, Cantabria Campus Internacional)

  • Pablo García-Fernández

    (Universidad de Cantabria, Cantabria Campus Internacional)

  • Long-Qing Chen

    (The Pennsylvania State University)

  • Harold Y. Hwang

    (Stanford University
    SLAC National Accelerator Laboratory)

  • Javier Junquera

    (Universidad de Cantabria, Cantabria Campus Internacional)

  • Lane W. Martin

    (University of California
    Lawrence Berkeley National Laboratory)

  • Ramamoorthy Ramesh

    (Materials Research Centre, Indian Institute of Science
    Lawrence Berkeley National Laboratory
    University of California
    Rice University)

  • David A. Muller

    (Cornell University
    Kavli Institute at Cornell for Nanoscale Science)

Abstract

Polar skyrmions are predicted to emerge from the interplay of elastic, electrostatic and gradient energies, in contrast to the key role of the anti-symmetric Dzyalozhinskii-Moriya interaction in magnetic skyrmions. Here, we explore the reversible transition from a skyrmion state (topological charge of −1) to a two-dimensional, tetratic lattice of merons (with topological charge of −1/2) upon varying the temperature and elastic boundary conditions in [(PbTiO3)16/(SrTiO3)16]8 membranes. This topological phase transition is accompanied by a change in chirality, from zero-net chirality (in meronic phase) to net-handedness (in skyrmionic phase). We show how scanning electron diffraction provides a robust measure of the local polarization simultaneously with the strain state at sub-nm resolution, while also directly mapping the chirality of each skyrmion. Using this, we demonstrate strain as a crucial order parameter to drive isotropic-to-anisotropic structural transitions of chiral polar skyrmions to non-chiral merons, validated with X-ray reciprocal space mapping and phase-field simulations.

Suggested Citation

  • Yu-Tsun Shao & Sujit Das & Zijian Hong & Ruijuan Xu & Swathi Chandrika & Fernando Gómez-Ortiz & Pablo García-Fernández & Long-Qing Chen & Harold Y. Hwang & Javier Junquera & Lane W. Martin & Ramamoort, 2023. "Emergent chirality in a polar meron to skyrmion phase transition," Nature Communications, Nature, vol. 14(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36950-x
    DOI: 10.1038/s41467-023-36950-x
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    1. Sandhya Susarla & Shanglin Hsu & Fernando Gómez-Ortiz & Pablo García-Fernández & Benjamin H. Savitzky & Sujit Das & Piush Behera & Javier Junquera & Peter Ercius & Ramamoorthy Ramesh & Colin Ophus, 2023. "The emergence of three-dimensional chiral domain walls in polar vortices," Nature Communications, Nature, vol. 14(1), pages 1-7, December.

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