Vacancy-assisted ferroelectric domain growth in BaTiO3under an applied electric field: A molecular dynamics study
Tsuzuki T, Ogata S, Kobayashi R, Uranagase M, Shimoi S, Durdiev D, Wendler F (2022)
Publication Type: Journal article
Publication year: 2022
Journal
Book Volume: 131
Article Number: 194101
Journal Issue: 19
DOI: 10.1063/5.0090231
Abstract
BaTiO3 is a well-known piezoelectric material, which is widely used in various devices. In general, the ferroelectric state of BaTiO3 is composed of polarized domains. The growth of these domains due to an applied electric field or stress is related to the piezoelectric performance. We investigated the effects of various point defects, monovacancies {VBa, VTi, VO}, and first- and second-neighbor divacancies {VBa-VO, VTi-VO} on polarized domain growth in BaTiO3 under an applied electric field by molecular dynamics simulations using the core-shell inter-atomic potential. We found that (i) the first-neighbor divacancy VBa-VO is the most effective in assisting the domain growth under an applied electric field (i.e., a smaller coercive electric field) in an asymmetrical manner with respect to the electric field direction. This is mainly due to the creation of an electric field around VBa-VO by significant Ti shifts toward VBa with the assistance of VO. (ii) Domain growth proceeds in a 1 + 2 dimensional manner. The domain growth velocity in the direction of the applied electric field is approximately two orders of magnitude higher than that in the perpendicular direction. (iii) Increasing the density of the divacancy VBa-VO further lowers the coercive electric field when the applied electric field is parallel to the divacancy dipoles. The present results will be essential for designing the type, orientation, and density of defects to modify the coercive electric field of BaTiO3 in defect engineering.
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APA:
Tsuzuki, T., Ogata, S., Kobayashi, R., Uranagase, M., Shimoi, S., Durdiev, D., & Wendler, F. (2022). Vacancy-assisted ferroelectric domain growth in BaTiO3under an applied electric field: A molecular dynamics study. Journal of Applied Physics, 131(19). https://dx.doi.org/10.1063/5.0090231
MLA:
Tsuzuki, Takahiro, et al. "Vacancy-assisted ferroelectric domain growth in BaTiO3under an applied electric field: A molecular dynamics study." Journal of Applied Physics 131.19 (2022).
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