Assessing the ubiquity of Bloch domain walls in ferroelectric lead titanate superlattices

The observation of unexpected polarization textures such as vortices, skyrmions and merons in various oxide heterostructures has challenged the widely accepted picture of ferroelectric domain walls as being Ising-like. Bloch components in the 180deg domain walls of PbTiO3 have recently been reported in PbTiO3/SrTiO3 superlattices and linked to domain wall chirality. While this opens exciting perspectives, the ubiquitous nature of this Bloch component remains to be further explored. In this work, we present a comprehensive investigation of domain walls in PbTiO3/SrTiO3 superlattices, involving a combination of first- and second-principles calculations, phase-field simulations, diffuse scattering calculations, and synchrotron based diffuse x-ray scattering. Our theoretical calculations highlight that the previously predicted Bloch polarization in the 180° domain walls in PbTiO3/SrTiO3 superlattices might be more sensitive to the boundary conditions than initially thought and is not always expected to appear. Employing diffuse scattering calculations for larger systems we develop a method to probe the complex structure of domain walls in these superlattices via diffuse x-ray scattering measurements. Through this approach, we investigate depolarization-driven ferroelectric polarization rotation at the domain walls. Our experimental findings, consistent with our theoretical predictions for realistic domain periods, do not reveal any signatures of a Bloch component in the centres of the 180° domain walls of PbTiO3/SrTiO3 superlattices, suggesting that the precise nature of domain walls in the ultrathin PbTiO3 layers is more intricate than previously thought and deserves further attention.

    Organizational unit
    Triscone Group
    Type
    Dataset
    DOI
    10.26037/yareta:rt7uwof32jhdxbs54h7qhx4q5a
    Referenced by the following DOI
    • 10.48550/arXiv.2408.12993
    License
    Creative Commons Attribution 4.0 International
Publication date14/10/2024
Retention date12/10/2034
accessLevelPublicAccess levelPublic
SensitivityBlue
licenseContract on the use of data
License
Contributors
  • Zatterin, Edoardo
  • Ondrejkovic, Petr
  • Bastogne, Louis
  • Lichtensteiger, Céline
  • Tovaglieri, Ludovica orcid
  • Chaney, Daneil A.
  • Sasani, Alireza
  • Schülli, Tobias
  • Bosak, Alexei
  • Leake, Steven
  • Zubko, Pavlo
  • Ghosez, Philippe
  • Hlinka, Jirka
  • Triscone, Jean-Marc
  • Hadjimichael, Marios
1
0
  • Quality (0 Reviews)
  • Usefulness (0 Reviews)

Datacite metadata

Packages information

Similar archives

Triscone Group
Generation of tunable stochastic sequences using the Insulator-Metal transition
2022 accessLevelPublic Public 22.4 MB
Triscone Group
Dynamics of the electrically induced insulator-to-metal transition in rare-earth nickelates - Phys. Rev. B 104 165141 (2021)
2021 accessLevelPublic Public 49.8 MB
Triscone Group
Structural and Electronic Properties of SrCuO2+delta Thin Films
2022 accessLevelPublic Public 83.1 MB
Triscone Group
Competition between carrier injection and structural distortions in electron-doped perovskite nickelate thin films
2023 accessLevelPublic Public 61.9 MB
All rights reserved by DLCM and the University of GenevaunigeBlack