Physical Review X (Oct 2020)

Mechanical Softness of Ferroelectric 180° Domain Walls

  • Christina Stefani,
  • Louis Ponet,
  • Konstantin Shapovalov,
  • Peng Chen,
  • Eric Langenberg,
  • Darrell G. Schlom,
  • Sergey Artyukhin,
  • Massimiliano Stengel,
  • Neus Domingo,
  • Gustau Catalan

DOI
https://doi.org/10.1103/PhysRevX.10.041001
Journal volume & issue
Vol. 10, no. 4
p. 041001

Abstract

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Using scanning probe microscopy, we measure the out-of-plane mechanical response of ferroelectric 180° domain walls and observe that, despite separating domains that are mechanically identical, the walls appear mechanically distinct—softer—compared to the domains. This effect is observed in different ferroelectric materials (LiNbO_{3}, BaTiO_{3}, and PbTiO_{3}) and with different morphologies (from single crystals to thin films), suggesting that the effect is universal. We propose a theoretical framework that explains the domain wall softening and justifies that the effect should be common to all ferroelectrics. The lesson is, therefore, that domain walls are not only functionally different from the domains they separate, but also mechanically distinct.