Investigation of domain structure evolution during zero-field temperature treatment in 0.67PMN-0.33PT single crystals

Q. Hu; A. D. Ushakov; A. A. Esin; E. O. Vlasov; D. S. Chezganov; L. Sun; A. P. Turygin; X. Wei; V. Ya Shur

doi:10.1080/00150193.2018.1432819

Investigation of domain structure evolution during zero-field temperature treatment in 0.67PMN-0.33PT single crystals

Q. Hu
, A. D. Ushakov
, A. A. Esin
, E. O. Vlasov
, D. S. Chezganov
, L. Sun
, A. P. Turygin
, X. Wei
, V. Ya Shur

Faculty of Electronic and Information Engineering

Ural Federal University

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

The temperature depolarization process has been studied in [001]-cut lead magnesium niobate-lead titanate single crystals with 33% lead titanate content by in situ visualization of as-grown domain structure evolution during zero-field heating and subsequent cooling. The phase transitions have been revealed during heat treatment. It has been shown by piezoresponse force microscopy and scanning electron microscopy that heat treatment leads to decay of maze-type as-grown domain structure into array of irregular domains with average diameter about 300 nm. Shallow etching of the surface during mechanochemical polishing has allowed keeping the surface relief corresponding to as-grown domain pattern.

Original language	English
Pages (from-to)	114-122
Number of pages	9
Journal	Ferroelectrics
Volume	525
Issue number	1
DOIs	https://doi.org/10.1080/00150193.2018.1432819
State	Published - 12 Mar 2018

Keywords

Lead magnesium niobate lead titanate
domain kinetics
domain structure

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10.1080/00150193.2018.1432819

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title = "Investigation of domain structure evolution during zero-field temperature treatment in 0.67PMN-0.33PT single crystals",

abstract = "The temperature depolarization process has been studied in [001]-cut lead magnesium niobate-lead titanate single crystals with 33\% lead titanate content by in situ visualization of as-grown domain structure evolution during zero-field heating and subsequent cooling. The phase transitions have been revealed during heat treatment. It has been shown by piezoresponse force microscopy and scanning electron microscopy that heat treatment leads to decay of maze-type as-grown domain structure into array of irregular domains with average diameter about 300 nm. Shallow etching of the surface during mechanochemical polishing has allowed keeping the surface relief corresponding to as-grown domain pattern.",

keywords = "Lead magnesium niobate lead titanate, domain kinetics, domain structure",

author = "Q. Hu and Ushakov, \{A. D.\} and Esin, \{A. A.\} and Vlasov, \{E. O.\} and Chezganov, \{D. S.\} and L. Sun and Turygin, \{A. P.\} and X. Wei and Shur, \{V. Ya\}",

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year = "2018",

month = mar,

day = "12",

doi = "10.1080/00150193.2018.1432819",

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T1 - Investigation of domain structure evolution during zero-field temperature treatment in 0.67PMN-0.33PT single crystals

AU - Hu, Q.

AU - Ushakov, A. D.

AU - Esin, A. A.

AU - Vlasov, E. O.

AU - Chezganov, D. S.

AU - Sun, L.

AU - Turygin, A. P.

AU - Wei, X.

AU - Shur, V. Ya

PY - 2018/3/12

Y1 - 2018/3/12

N2 - The temperature depolarization process has been studied in [001]-cut lead magnesium niobate-lead titanate single crystals with 33% lead titanate content by in situ visualization of as-grown domain structure evolution during zero-field heating and subsequent cooling. The phase transitions have been revealed during heat treatment. It has been shown by piezoresponse force microscopy and scanning electron microscopy that heat treatment leads to decay of maze-type as-grown domain structure into array of irregular domains with average diameter about 300 nm. Shallow etching of the surface during mechanochemical polishing has allowed keeping the surface relief corresponding to as-grown domain pattern.

AB - The temperature depolarization process has been studied in [001]-cut lead magnesium niobate-lead titanate single crystals with 33% lead titanate content by in situ visualization of as-grown domain structure evolution during zero-field heating and subsequent cooling. The phase transitions have been revealed during heat treatment. It has been shown by piezoresponse force microscopy and scanning electron microscopy that heat treatment leads to decay of maze-type as-grown domain structure into array of irregular domains with average diameter about 300 nm. Shallow etching of the surface during mechanochemical polishing has allowed keeping the surface relief corresponding to as-grown domain pattern.

KW - Lead magnesium niobate lead titanate

KW - domain kinetics

KW - domain structure

UR - https://www.scopus.com/pages/publications/85044031793

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DO - 10.1080/00150193.2018.1432819

M3 - 文章

AN - SCOPUS:85044031793

SN - 0015-0193

VL - 525

SP - 114

EP - 122

JO - Ferroelectrics

JF - Ferroelectrics

IS - 1

ER -

Investigation of domain structure evolution during zero-field temperature treatment in 0.67PMN-0.33PT single crystals

Abstract

Keywords

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