Field-induced displacement properties of nanoscale domain structure in PZT thin film

Zeng Hua-Rong; Yu Han-Feng; Chu Rui-Qing; Li Guo-Rong; Yin Qing-Rui; Tang Xin-Gui

doi:10.7498/aps.54.1437

Abstract
Nanoscale characterization of fieldinduced displacement was made in compositionally graded PZT thin film according to the inverse piezoelectric effects by SFM in contact mode. The nanoscale piezoelectric displacement  electric field butterfly loop was obtained due to the combined contribution from linear piezoelectric effect and domain switching effect, which substantiate nanoscale validity of CaspariMerz theory. The nanoscale imprint phenomena were also observed in the thin film.

Keywords:
PZT thin film /

fieldinduced displacement /

nanoscale /

scanning force microscopy
Authors and contacts
Zeng Hua-Rong²,

Yu Han-Feng²,

Chu Rui-Qing²,

Li Guo-Rong²,

Yin Qing-Rui²,

Tang Xin-Gui¹

(1)广东工业大学应用物理学院，广州510090; (2)中国科学院上海硅酸盐研究所高性能陶瓷和超微结构国家重点实验室，上海200050
References

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Vol. 54, Issue 3 - 2005-02-05

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Field-induced displacement properties of nanoscale domain structure in PZT thin film

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