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Atomic scale crystal field mapping of polar vortices in oxide superlattices

Author

Listed:
  • Sandhya Susarla

    (Lawrence Berkeley National Laboratory
    University of California
    Lawrence Berkeley National Laboratory)

  • Pablo García-Fernández

    (Universidad de Cantabria, Cantabria Campus Internacional, Avenida de los Castros s/n)

  • Colin Ophus

    (Lawrence Berkeley National Laboratory)

  • Sujit Das

    (University of California)

  • Pablo Aguado-Puente

    (CIC nanoGUNE BRTA)

  • Margaret McCarter

    (University of California
    Lawrence Berkeley National Laboratory)

  • Peter Ercius

    (Lawrence Berkeley National Laboratory)

  • Lane W. Martin

    (University of California
    Lawrence Berkeley National Laboratory)

  • Ramamoorthy Ramesh

    (Lawrence Berkeley National Laboratory
    University of California
    Lawrence Berkeley National Laboratory
    University of California)

  • Javier Junquera

    (Universidad de Cantabria, Cantabria Campus Internacional, Avenida de los Castros s/n)

Abstract

Polar vortices in oxide superlattices exhibit complex polarization topologies. Using a combination of electron energy loss near-edge structure analysis, crystal field multiplet theory, and first-principles calculations, we probe the electronic structure within such polar vortices in [(PbTiO3)16/(SrTiO3)16] superlattices at the atomic scale. The peaks in Ti $$L$$ L -edge spectra shift systematically depending on the position of the Ti4+ cations within the vortices i.e., the direction and magnitude of the local dipole. First-principles computation of the local projected density of states on the Ti $$3d$$ 3 d orbitals, together with the simulated crystal field multiplet spectra derived from first principles are in good agreement with the experiments.

Suggested Citation

  • Sandhya Susarla & Pablo García-Fernández & Colin Ophus & Sujit Das & Pablo Aguado-Puente & Margaret McCarter & Peter Ercius & Lane W. Martin & Ramamoorthy Ramesh & Javier Junquera, 2021. "Atomic scale crystal field mapping of polar vortices in oxide superlattices," Nature Communications, Nature, vol. 12(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-26476-5
    DOI: 10.1038/s41467-021-26476-5
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