Coupling of bias-induced crystallographic shear planes with charged domain walls in ferroelectric oxide thin films

Myung Geun Han; Joseph A. Garlow; Matthieu Bugnet; Simon Divilov; Matthew S.J. Marshall; Lijun Wu; Matthew Dawber; Marivi Fernandez-Serra; Gianluigi A. Botton; Sang Wook Cheong; Frederick J. Walker; Charles H. Ahn; Yimei Zhu

doi:10.1103/PhysRevB.94.100101

Coupling of bias-induced crystallographic shear planes with charged domain walls in ferroelectric oxide thin films

Myung Geun Han
, Joseph A. Garlow
, Matthieu Bugnet
, Simon Divilov
, Matthew S.J. Marshall
, Lijun Wu
, Matthew Dawber
, Marivi Fernandez-Serra
, Gianluigi A. Botton
, Sang Wook Cheong
, Frederick J. Walker
, Charles H. Ahn
, Yimei Zhu

Physics and Astronomy

Stony Brook University

Brookhaven National Laboratory Condensed Matter Physics and Materials Science Department
Stony Brook University
McMaster University
Yale University
Rutgers - The State University of New Jersey, New Brunswick

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

9 Scopus citations

Abstract

Polar discontinuity at interfaces plays deterministic roles in charge transport, magnetism, and even superconductivity of functional oxides. To date, most polar discontinuity problems have been explored in heterointerfaces between two dissimilar materials. Here, we show that charged domain walls (CDWs) in epitaxial thin films of ferroelectric PbZr0.2Ti0.8O3 are strongly coupled to polar interfaces through the formation of 12(101){h0l}- type crystallographic shear planes (CSPs). Using atomic resolution imaging and spectroscopy we illustrate that the CSPs consist of both conservative and nonconservative segments when coupled to the CDWs where necessary compensating charges for stabilizing the CDWs are associated with vacancies at the CSPs. The CDW/CSP coupling yields an atomically narrow domain wall, consisting of a single atomic layer of oxygen. This study shows that the CDW/CSP coupling is a fascinating venue to develop emergent material properties.

Original language	English
Article number	100101
Journal	Physical Review B
Volume	94
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevB.94.100101
State	Published - Sep 2 2016

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Han, M. G., Garlow, J. A., Bugnet, M., Divilov, S., Marshall, M. S. J., Wu, L., Dawber, M., Fernandez-Serra, M., Botton, G. A., Cheong, S. W., Walker, F. J., Ahn, C. H., & Zhu, Y. (2016). Coupling of bias-induced crystallographic shear planes with charged domain walls in ferroelectric oxide thin films. Physical Review B, 94(10), Article 100101. https://doi.org/10.1103/PhysRevB.94.100101

@article{bff1195fda0444c7a947f9c14ec48e15,

title = "Coupling of bias-induced crystallographic shear planes with charged domain walls in ferroelectric oxide thin films",

abstract = "Polar discontinuity at interfaces plays deterministic roles in charge transport, magnetism, and even superconductivity of functional oxides. To date, most polar discontinuity problems have been explored in heterointerfaces between two dissimilar materials. Here, we show that charged domain walls (CDWs) in epitaxial thin films of ferroelectric PbZr0.2Ti0.8O3 are strongly coupled to polar interfaces through the formation of 12(101)\{h0l\}- type crystallographic shear planes (CSPs). Using atomic resolution imaging and spectroscopy we illustrate that the CSPs consist of both conservative and nonconservative segments when coupled to the CDWs where necessary compensating charges for stabilizing the CDWs are associated with vacancies at the CSPs. The CDW/CSP coupling yields an atomically narrow domain wall, consisting of a single atomic layer of oxygen. This study shows that the CDW/CSP coupling is a fascinating venue to develop emergent material properties.",

author = "Han, \{Myung Geun\} and Garlow, \{Joseph A.\} and Matthieu Bugnet and Simon Divilov and Marshall, \{Matthew S.J.\} and Lijun Wu and Matthew Dawber and Marivi Fernandez-Serra and Botton, \{Gianluigi A.\} and Cheong, \{Sang Wook\} and Walker, \{Frederick J.\} and Ahn, \{Charles H.\} and Yimei Zhu",

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doi = "10.1103/PhysRevB.94.100101",

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T1 - Coupling of bias-induced crystallographic shear planes with charged domain walls in ferroelectric oxide thin films

AU - Han, Myung Geun

AU - Garlow, Joseph A.

AU - Bugnet, Matthieu

AU - Divilov, Simon

AU - Marshall, Matthew S.J.

AU - Wu, Lijun

AU - Dawber, Matthew

AU - Fernandez-Serra, Marivi

AU - Botton, Gianluigi A.

AU - Cheong, Sang Wook

AU - Walker, Frederick J.

AU - Ahn, Charles H.

AU - Zhu, Yimei

PY - 2016/9/2

Y1 - 2016/9/2

N2 - Polar discontinuity at interfaces plays deterministic roles in charge transport, magnetism, and even superconductivity of functional oxides. To date, most polar discontinuity problems have been explored in heterointerfaces between two dissimilar materials. Here, we show that charged domain walls (CDWs) in epitaxial thin films of ferroelectric PbZr0.2Ti0.8O3 are strongly coupled to polar interfaces through the formation of 12(101){h0l}- type crystallographic shear planes (CSPs). Using atomic resolution imaging and spectroscopy we illustrate that the CSPs consist of both conservative and nonconservative segments when coupled to the CDWs where necessary compensating charges for stabilizing the CDWs are associated with vacancies at the CSPs. The CDW/CSP coupling yields an atomically narrow domain wall, consisting of a single atomic layer of oxygen. This study shows that the CDW/CSP coupling is a fascinating venue to develop emergent material properties.

AB - Polar discontinuity at interfaces plays deterministic roles in charge transport, magnetism, and even superconductivity of functional oxides. To date, most polar discontinuity problems have been explored in heterointerfaces between two dissimilar materials. Here, we show that charged domain walls (CDWs) in epitaxial thin films of ferroelectric PbZr0.2Ti0.8O3 are strongly coupled to polar interfaces through the formation of 12(101){h0l}- type crystallographic shear planes (CSPs). Using atomic resolution imaging and spectroscopy we illustrate that the CSPs consist of both conservative and nonconservative segments when coupled to the CDWs where necessary compensating charges for stabilizing the CDWs are associated with vacancies at the CSPs. The CDW/CSP coupling yields an atomically narrow domain wall, consisting of a single atomic layer of oxygen. This study shows that the CDW/CSP coupling is a fascinating venue to develop emergent material properties.

UR - https://www.scopus.com/pages/publications/84990987710

U2 - 10.1103/PhysRevB.94.100101

DO - 10.1103/PhysRevB.94.100101

M3 - Article

SN - 2469-9950

VL - 94

JO - Physical Review B

JF - Physical Review B

IS - 10

M1 - 100101

ER -

Coupling of bias-induced crystallographic shear planes with charged domain walls in ferroelectric oxide thin films

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