Stabilization of three-dimensional charge order in YBa2Cu3O6+x via epitaxial growth

Stabilization of three-dimensional charge order in YBa2Cu3O6+x via epitaxial growth

In many cuprates the high temperature superconducting state competes with a charge ordered phase that has been difficult to investigate in detail. Here the authors show three-dimensional charge order can be stabilized in YBCO films and studied without using the high magnetic fields that are necessar...

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Main Authors: M. Bluschke, A. Frano, E. Schierle, D. Putzky, F. Ghorbani, R. Ortiz, H. Suzuki, G. Christiani, G. Logvenov, E. Weschke, R. J. Birgeneau, E. H. da Silva Neto, M. Minola, S. Blanco-Canosa, B. Keimer
Format: Article
Language:English
Published: Nature Publishing Group 2018-07-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-018-05434-8
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spelling doaj-815bed0ddc744aa1b165de6393dbdb342021-05-11T09:54:10ZengNature Publishing GroupNature Communications2041-17232018-07-01911810.1038/s41467-018-05434-8Stabilization of three-dimensional charge order in YBa2Cu3O6+x via epitaxial growthM. Bluschke0A. Frano1E. Schierle2D. Putzky3F. Ghorbani4R. Ortiz5H. Suzuki6G. Christiani7G. Logvenov8E. Weschke9R. J. Birgeneau10E. H. da Silva Neto11M. Minola12S. Blanco-Canosa13B. Keimer14Max Planck Institute for Solid State ResearchDepartment of Physics, University of CaliforniaHelmholtz-Zentrum Berlin für Materialien und Energie, Wilhelm-Conrad-Röntgen-Campus BESSY IIMax Planck Institute for Solid State ResearchMax Planck Institute for Solid State ResearchMax Planck Institute for Solid State ResearchMax Planck Institute for Solid State ResearchMax Planck Institute for Solid State ResearchMax Planck Institute for Solid State ResearchHelmholtz-Zentrum Berlin für Materialien und Energie, Wilhelm-Conrad-Röntgen-Campus BESSY IIDepartment of Physics, University of CaliforniaDepartment of Physics, University of CaliforniaMax Planck Institute for Solid State ResearchCIC nanoGUNEMax Planck Institute for Solid State ResearchIn many cuprates the high temperature superconducting state competes with a charge ordered phase that has been difficult to investigate in detail. Here the authors show three-dimensional charge order can be stabilized in YBCO films and studied without using the high magnetic fields that are necessary in the bulk material.https://doi.org/10.1038/s41467-018-05434-8
collection DOAJ
language English
format Article
sources DOAJ
author M. Bluschke
A. Frano
E. Schierle
D. Putzky
F. Ghorbani
R. Ortiz
H. Suzuki
G. Christiani
G. Logvenov
E. Weschke
R. J. Birgeneau
E. H. da Silva Neto
M. Minola
S. Blanco-Canosa
B. Keimer
spellingShingle M. Bluschke
A. Frano
E. Schierle
D. Putzky
F. Ghorbani
R. Ortiz
H. Suzuki
G. Christiani
G. Logvenov
E. Weschke
R. J. Birgeneau
E. H. da Silva Neto
M. Minola
S. Blanco-Canosa
B. Keimer
Stabilization of three-dimensional charge order in YBa2Cu3O6+x via epitaxial growth
Nature Communications
author_facet M. Bluschke
A. Frano
E. Schierle
D. Putzky
F. Ghorbani
R. Ortiz
H. Suzuki
G. Christiani
G. Logvenov
E. Weschke
R. J. Birgeneau
E. H. da Silva Neto
M. Minola
S. Blanco-Canosa
B. Keimer
author_sort M. Bluschke
title Stabilization of three-dimensional charge order in YBa2Cu3O6+x via epitaxial growth
title_short Stabilization of three-dimensional charge order in YBa2Cu3O6+x via epitaxial growth
title_full Stabilization of three-dimensional charge order in YBa2Cu3O6+x via epitaxial growth
title_fullStr Stabilization of three-dimensional charge order in YBa2Cu3O6+x via epitaxial growth
title_full_unstemmed Stabilization of three-dimensional charge order in YBa2Cu3O6+x via epitaxial growth
title_sort stabilization of three-dimensional charge order in yba2cu3o6+x via epitaxial growth
publisher Nature Publishing Group
series Nature Communications
issn 2041-1723
publishDate 2018-07-01
description In many cuprates the high temperature superconducting state competes with a charge ordered phase that has been difficult to investigate in detail. Here the authors show three-dimensional charge order can be stabilized in YBCO films and studied without using the high magnetic fields that are necessary in the bulk material.
url https://doi.org/10.1038/s41467-018-05434-8
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