Scanning X-ray nanodiffraction from ferroelectric domains in strained K(0.75)Na(0.25)NbO(3) epitaxial films grown on (110) TbScO(3)

Scanning X-ray nanodiffraction on a highly periodic ferroelectric domain pattern of a strained K(0.75)Na(0.25)NbO(3) epitaxial layer has been performed by using a focused X-ray beam of about 100 nm probe size. A 90°-rotated domain variant which is aligned along [1[Image: see text]2](TSO) has been fo...

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Autores principales: Schmidbauer, Martin, Hanke, Michael, Kwasniewski, Albert, Braun, Dorothee, von Helden, Leonard, Feldt, Christoph, Leake, Steven John, Schwarzkopf, Jutta
Formato: Online Artículo Texto
Lenguaje:English
Publicado: International Union of Crystallography 2017
Materias:
Research Papers
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5377345/
https://www.ncbi.nlm.nih.gov/pubmed/28381975
http://dx.doi.org/10.1107/S1600576717000905
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author Schmidbauer, Martin
Hanke, Michael
Kwasniewski, Albert
Braun, Dorothee
von Helden, Leonard
Feldt, Christoph
Leake, Steven John
Schwarzkopf, Jutta
author_facet Schmidbauer, Martin
Hanke, Michael
Kwasniewski, Albert
Braun, Dorothee
von Helden, Leonard
Feldt, Christoph
Leake, Steven John
Schwarzkopf, Jutta
author_sort Schmidbauer, Martin
collection PubMed
description Scanning X-ray nanodiffraction on a highly periodic ferroelectric domain pattern of a strained K(0.75)Na(0.25)NbO(3) epitaxial layer has been performed by using a focused X-ray beam of about 100 nm probe size. A 90°-rotated domain variant which is aligned along [1[Image: see text]2](TSO) has been found in addition to the predominant domain variant where the domains are aligned along the [[Image: see text]12](TSO) direction of the underlying (110) TbScO(3) (TSO) orthorhombic substrate. Owing to the larger elastic strain energy density, the 90°-rotated domains appear with significantly reduced probability. Furthermore, the 90°-rotated variant shows a larger vertical lattice spacing than the 0°-rotated domain variant. Calculations based on linear elasticity theory substantiate that this difference is caused by the elastic anisotropy of the K(0.75)Na(0.25)NbO(3) epitaxial layer.
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spelling pubmed-53773452017-04-05 Scanning X-ray nanodiffraction from ferroelectric domains in strained K(0.75)Na(0.25)NbO(3) epitaxial films grown on (110) TbScO(3) Schmidbauer, Martin Hanke, Michael Kwasniewski, Albert Braun, Dorothee von Helden, Leonard Feldt, Christoph Leake, Steven John Schwarzkopf, Jutta J Appl Crystallogr Research Papers Scanning X-ray nanodiffraction on a highly periodic ferroelectric domain pattern of a strained K(0.75)Na(0.25)NbO(3) epitaxial layer has been performed by using a focused X-ray beam of about 100 nm probe size. A 90°-rotated domain variant which is aligned along [1[Image: see text]2](TSO) has been found in addition to the predominant domain variant where the domains are aligned along the [[Image: see text]12](TSO) direction of the underlying (110) TbScO(3) (TSO) orthorhombic substrate. Owing to the larger elastic strain energy density, the 90°-rotated domains appear with significantly reduced probability. Furthermore, the 90°-rotated variant shows a larger vertical lattice spacing than the 0°-rotated domain variant. Calculations based on linear elasticity theory substantiate that this difference is caused by the elastic anisotropy of the K(0.75)Na(0.25)NbO(3) epitaxial layer. International Union of Crystallography 2017-02-17 /pmc/articles/PMC5377345/ /pubmed/28381975 http://dx.doi.org/10.1107/S1600576717000905 Text en © Martin Schmidbauer et al. 2017 http://creativecommons.org/licenses/by/2.0/uk/ This is an open-access article distributed under the terms of the Creative Commons Attribution (CC-BY) Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are cited.http://creativecommons.org/licenses/by/2.0/uk/
spellingShingle Research Papers
Schmidbauer, Martin
Hanke, Michael
Kwasniewski, Albert
Braun, Dorothee
von Helden, Leonard
Feldt, Christoph
Leake, Steven John
Schwarzkopf, Jutta
Scanning X-ray nanodiffraction from ferroelectric domains in strained K(0.75)Na(0.25)NbO(3) epitaxial films grown on (110) TbScO(3)
title Scanning X-ray nanodiffraction from ferroelectric domains in strained K(0.75)Na(0.25)NbO(3) epitaxial films grown on (110) TbScO(3)
title_full Scanning X-ray nanodiffraction from ferroelectric domains in strained K(0.75)Na(0.25)NbO(3) epitaxial films grown on (110) TbScO(3)
title_fullStr Scanning X-ray nanodiffraction from ferroelectric domains in strained K(0.75)Na(0.25)NbO(3) epitaxial films grown on (110) TbScO(3)
title_full_unstemmed Scanning X-ray nanodiffraction from ferroelectric domains in strained K(0.75)Na(0.25)NbO(3) epitaxial films grown on (110) TbScO(3)
title_short Scanning X-ray nanodiffraction from ferroelectric domains in strained K(0.75)Na(0.25)NbO(3) epitaxial films grown on (110) TbScO(3)
title_sort scanning x-ray nanodiffraction from ferroelectric domains in strained k(0.75)na(0.25)nbo(3) epitaxial films grown on (110) tbsco(3)
topic Research Papers
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5377345/
https://www.ncbi.nlm.nih.gov/pubmed/28381975
http://dx.doi.org/10.1107/S1600576717000905
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