Disentangling Ferroelectric Wall Dynamics and Identification of Pinning Mechanisms via Deep Learning.
deep learning
domain wall dynamics
ferroelectrics
pinning mechanism
Journal
Advanced materials (Deerfield Beach, Fla.)
ISSN: 1521-4095
Titre abrégé: Adv Mater
Pays: Germany
ID NLM: 9885358
Informations de publication
Date de publication:
Oct 2021
Oct 2021
Historique:
revised:
06
07
2021
received:
14
05
2021
pubmed:
13
9
2021
medline:
13
9
2021
entrez:
12
9
2021
Statut:
ppublish
Résumé
Field-induced domain-wall dynamics in ferroelectric materials underpins multiple applications ranging from actuators to information technology devices and necessitates a quantitative description of the associated mechanisms including giant electromechanical couplings, controlled nonlinearities, or low coercive voltages. While the advances in dynamic piezoresponse force microscopy measurements over the last two decades have rendered visualization of polarization dynamics relatively straightforward, the associated insights into the local mechanisms have been elusive. This work explores the domain dynamics in model polycrystalline materials using a workflow combining deep-learning-based segmentation of the domain structures with nonlinear dimensionality reduction using multilayer rotationally invariant autoencoders (rVAE). The former allows unambiguous identification and classification of the ferroelectric and ferroelastic domain walls. The rVAE discovers the latent representations of the domain wall geometries and their dynamics, thus providing insight into the intrinsic mechanisms of polarization switching, that can further be compared to simple physical models. The rVAE disentangles the factors affecting the pinning efficiency of ferroelectric walls, offering insights into the correlation of ferroelastic wall distribution and ferroelectric wall pinning.
Identifiants
pubmed: 34510569
doi: 10.1002/adma.202103680
doi:
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
e2103680Subventions
Organisme : U.S. Department of Energy
Organisme : Basic Energy Sciences Energy Frontier Research Centers
ID : DE-SC0021118
Organisme : Oak Ridge National Laboratory's Center for Nanophase Materials Sciences
Informations de copyright
© 2021 Wiley-VCH GmbH.
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