Direct evidence for the spin cycloid in strained nanoscale bismuth ferrite thin films

Direct evidence for the spin cycloid in strained nanoscale bismuth ferrite thin films

Whilst possessing potential for electrically-controlled magnonic applications, the spin cycloid of bulk BiFeO3 is lost in technologically-relevant thin films. Here, the authors demonstrate the stabilization of a long-range spin cycloid in BiFeO3thin films through careful choice of electrostatic and...

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Autores principales: Joel Bertinshaw, Ronald Maran, Sara J. Callori, Vidya Ramesh, Jeffery Cheung, Sergey A. Danilkin, Wai Tung Lee, Songbai Hu, Jan Seidel, Nagarajan Valanoor, Clemens Ulrich
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/252422a17fed4d86b1a349b9c1ebc765
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spelling oai:doaj.org-article:252422a17fed4d86b1a349b9c1ebc7652021-12-02T15:35:01ZDirect evidence for the spin cycloid in strained nanoscale bismuth ferrite thin films10.1038/ncomms126642041-1723https://doaj.org/article/252422a17fed4d86b1a349b9c1ebc7652016-09-01T00:00:00Zhttps://doi.org/10.1038/ncomms12664https://doaj.org/toc/2041-1723Whilst possessing potential for electrically-controlled magnonic applications, the spin cycloid of bulk BiFeO3 is lost in technologically-relevant thin films. Here, the authors demonstrate the stabilization of a long-range spin cycloid in BiFeO3thin films through careful choice of electrostatic and strain conditions during thin film growth.Joel BertinshawRonald MaranSara J. CalloriVidya RameshJeffery CheungSergey A. DanilkinWai Tung LeeSongbai HuJan SeidelNagarajan ValanoorClemens UlrichNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-7 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Joel Bertinshaw
Ronald Maran
Sara J. Callori
Vidya Ramesh
Jeffery Cheung
Sergey A. Danilkin
Wai Tung Lee
Songbai Hu
Jan Seidel
Nagarajan Valanoor
Clemens Ulrich
Direct evidence for the spin cycloid in strained nanoscale bismuth ferrite thin films
description Whilst possessing potential for electrically-controlled magnonic applications, the spin cycloid of bulk BiFeO3 is lost in technologically-relevant thin films. Here, the authors demonstrate the stabilization of a long-range spin cycloid in BiFeO3thin films through careful choice of electrostatic and strain conditions during thin film growth.
format article
author Joel Bertinshaw
Ronald Maran
Sara J. Callori
Vidya Ramesh
Jeffery Cheung
Sergey A. Danilkin
Wai Tung Lee
Songbai Hu
Jan Seidel
Nagarajan Valanoor
Clemens Ulrich
author_facet Joel Bertinshaw
Ronald Maran
Sara J. Callori
Vidya Ramesh
Jeffery Cheung
Sergey A. Danilkin
Wai Tung Lee
Songbai Hu
Jan Seidel
Nagarajan Valanoor
Clemens Ulrich
author_sort Joel Bertinshaw
title Direct evidence for the spin cycloid in strained nanoscale bismuth ferrite thin films
title_short Direct evidence for the spin cycloid in strained nanoscale bismuth ferrite thin films
title_full Direct evidence for the spin cycloid in strained nanoscale bismuth ferrite thin films
title_fullStr Direct evidence for the spin cycloid in strained nanoscale bismuth ferrite thin films
title_full_unstemmed Direct evidence for the spin cycloid in strained nanoscale bismuth ferrite thin films
title_sort direct evidence for the spin cycloid in strained nanoscale bismuth ferrite thin films
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/252422a17fed4d86b1a349b9c1ebc765
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AT ronaldmaran directevidenceforthespincycloidinstrainednanoscalebismuthferritethinfilms
AT sarajcallori directevidenceforthespincycloidinstrainednanoscalebismuthferritethinfilms
AT vidyaramesh directevidenceforthespincycloidinstrainednanoscalebismuthferritethinfilms
AT jefferycheung directevidenceforthespincycloidinstrainednanoscalebismuthferritethinfilms
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AT janseidel directevidenceforthespincycloidinstrainednanoscalebismuthferritethinfilms
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