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Imaging and structure analysis of ferroelectric domains, domain walls, and vortices by scanning electron diffraction

Physics

Imaging and structure analysis of ferroelectric domains, domain walls, and vortices by scanning electron diffraction

U. Ludacka, J. He, et al.

This groundbreaking research, conducted by a team of experts, unveils the extraordinary potential of direct electron detectors in scanning transmission electron microscopy. By employing a custom convolutional autoencoder, the authors investigate polar distortions in the uniaxial ferroelectric Er(Mn,Ti)O₃, delivering unmatched quantitative insights into nanoscale structural changes across vast areas. Prepare to be amazed by their discoveries of intricate domain dynamics and topological formations!

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Playback language: English
Abstract
Direct electron detectors in scanning transmission electron microscopy offer unprecedented nanoscale structure analysis capabilities. This study uses scanning electron diffraction (SED) to investigate local polar distortions in the uniaxial ferroelectric Er(Mn,Ti)O₃. A custom convolutional autoencoder with bespoke regularization disentangles subtle scattering variations of ferroelectric domains, domain walls, and vortex textures, separating them from extrinsic factors. This method enables quantitative measurement of symmetry-breaking distortions across large areas, mapping structural changes at interfaces and topological structures with nanoscale resolution.
Publisher
npj Computational Materials
Published On
May 18, 2024
Authors
Ursula Ludacka, Jiali He, Shuyu Qin, Manuel Zahn, Emil Frang Christiansen, Kasper A. Hunnestad, Xinqiao Zhang, Zewu Yan, Edith Bourret, István Kézsmárki, Antonius T. J. van Helvoort, Joshua Agar, Dennis Meier
Tags
electron detectors
scanning transmission electron microscopy
ferroelectrics
local polar distortions
convolutional autoencoder
nanoscale resolution
structural changes

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