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The ferroelectric phase transition in a 500 nm sized single particle of BaTiO3 tracked by coherent X-ray diffraction

The shapes and sizes of grains influence the anisotropy of crystal structures and the configuration of ferroelectric domains. In order to better understand these effects, we introduce a method to observe a ferroelectric phase transition in a single ferroelectric particle of sub-micrometer size. The...

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Published in:Japanese Journal of Applied Physics 2022-11, Vol.61 (SN), p.SN1008
Main Authors: Oshime, Norihiro, Ohwada, Kenji, Machida, Akihiko, Fukushima, Nagise, Ueno, Shintaro, Fujii, Ichiro, Wada, Satoshi, Sugawara, Kento, Shimada, Ayumu, Ueno, Tetsuro, Watanuki, Tetsu, Ishii, Kenji, Toyokawa, Hidenori, Momma, Koichi, Kim, Sangwook, Tsukada, Shinya, Kuroiwa, Yoshihiro
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container_issue SN
container_start_page SN1008
container_title Japanese Journal of Applied Physics
container_volume 61
creator Oshime, Norihiro
Ohwada, Kenji
Machida, Akihiko
Fukushima, Nagise
Ueno, Shintaro
Fujii, Ichiro
Wada, Satoshi
Sugawara, Kento
Shimada, Ayumu
Ueno, Tetsuro
Watanuki, Tetsu
Ishii, Kenji
Toyokawa, Hidenori
Momma, Koichi
Kim, Sangwook
Tsukada, Shinya
Kuroiwa, Yoshihiro
description The shapes and sizes of grains influence the anisotropy of crystal structures and the configuration of ferroelectric domains. In order to better understand these effects, we introduce a method to observe a ferroelectric phase transition in a single ferroelectric particle of sub-micrometer size. The phase transition was observed by cooling the sample through its Curie temperature, and studying the pattern variations of Bragg coherent X-ray diffraction from a single particle of 500 nm sized BaTiO3. A change from a single 200 peak (cubic phase) to both 200 and 002 peaks (tetragonal phase); was seen, with fringes connecting them like a bridge. The pattern from the BaTiO3 particle in the cubic phase was also imaged using Bragg coherent diffraction imaging. The apparent strain distribution caused by dislocation internal to the BaTiO3 crystal was visible in the reconstructed image.
doi_str_mv 10.35848/1347-4065/ac7d94
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source Institute of Physics IOPscience extra; Institute of Physics
subjects Anisotropy
Barium titanates
Coherence
coherent X-ray diffraction
Crystal dislocations
Crystal structure
crystalline fine particle
Curie temperature
Diffraction patterns
Ferroelectric domains
Ferroelectric materials
ferroelectric phase transition
Ferroelectricity
Image reconstruction
imaging
Phase transitions
Strain distribution
X-ray diffraction
title The ferroelectric phase transition in a 500 nm sized single particle of BaTiO3 tracked by coherent X-ray diffraction
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