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Strain engineering a multiferroic monodomain in thin-film BiFeO3

Strain engineering a multiferroic monodomain in thin-film BiFeO3
Strain engineering a multiferroic monodomain in thin-film BiFeO3
The presence of domains in ferroic materials can negatively affect their macroscopic properties and hence their usefulness in device applications. From an experimental perspective, the measurement of materials comprising multiple domains can complicate the interpretation of the material properties and their underlying mechanisms. In general, BiFeO3 films tend to grow with multiple magnetic domains and often contain multiple ferroelectric- and ferroelastic-domain variants. By growing (111)-oriented BiFeO3 films on an orthorhombic TbScO3 substrate, we are able to overcome this and, by exploiting the magnetoelastic coupling between the magnetic and crystal structures, bias the growth of a given magnetic-, ferroelectric-, and structural-domain film. We further demonstrate the coupling of the magnetic structure to the ferroelectric polarization by showing that the magnetic polarity in this domain is inverted upon 180∘ ferroelectric switching.
2331-7019
Waterfield Price, Noah
3274c895-06a8-466a-92f4-2b3c23ff2510
Vibhakar, Anuradha M.
36ae6c64-f879-46ba-864b-f8ba590a2a0f
Johnson, Roger D.
5ed9812f-c020-40a3-b1f1-e7a5780ca2d4
Schad, Jon
bb5f9a61-4bc5-4855-a81e-09acaa138043
Saenrang, Wittawatt
a7576fe7-b839-4531-92bb-d794042acc71
Bombardi, Alexendro
ebbc9264-3bf7-484f-b49d-c8c817a0f0af
Chmiel, Francis P.
2de259aa-a5eb-460c-bfbf-8b44ed02e2bd
Eom, Chang-Beom
6b5660af-2a05-4f7b-bf59-c0385eae72d2
Radaelli, Paolo G.
210d4ab2-ae25-4d5d-bc1e-5fc881dc6006
Waterfield Price, Noah
3274c895-06a8-466a-92f4-2b3c23ff2510
Vibhakar, Anuradha M.
36ae6c64-f879-46ba-864b-f8ba590a2a0f
Johnson, Roger D.
5ed9812f-c020-40a3-b1f1-e7a5780ca2d4
Schad, Jon
bb5f9a61-4bc5-4855-a81e-09acaa138043
Saenrang, Wittawatt
a7576fe7-b839-4531-92bb-d794042acc71
Bombardi, Alexendro
ebbc9264-3bf7-484f-b49d-c8c817a0f0af
Chmiel, Francis P.
2de259aa-a5eb-460c-bfbf-8b44ed02e2bd
Eom, Chang-Beom
6b5660af-2a05-4f7b-bf59-c0385eae72d2
Radaelli, Paolo G.
210d4ab2-ae25-4d5d-bc1e-5fc881dc6006

Waterfield Price, Noah, Vibhakar, Anuradha M., Johnson, Roger D., Schad, Jon, Saenrang, Wittawatt, Bombardi, Alexendro, Chmiel, Francis P., Eom, Chang-Beom and Radaelli, Paolo G. (2019) Strain engineering a multiferroic monodomain in thin-film BiFeO3. Physical Review Applied, 11 (2), [024035]. (doi:10.1103/PhysRevApplied.11.024035).

Record type: Article

Abstract

The presence of domains in ferroic materials can negatively affect their macroscopic properties and hence their usefulness in device applications. From an experimental perspective, the measurement of materials comprising multiple domains can complicate the interpretation of the material properties and their underlying mechanisms. In general, BiFeO3 films tend to grow with multiple magnetic domains and often contain multiple ferroelectric- and ferroelastic-domain variants. By growing (111)-oriented BiFeO3 films on an orthorhombic TbScO3 substrate, we are able to overcome this and, by exploiting the magnetoelastic coupling between the magnetic and crystal structures, bias the growth of a given magnetic-, ferroelectric-, and structural-domain film. We further demonstrate the coupling of the magnetic structure to the ferroelectric polarization by showing that the magnetic polarity in this domain is inverted upon 180∘ ferroelectric switching.

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More information

e-pub ahead of print date: 13 February 2019
Published date: February 2019

Identifiers

Local EPrints ID: 431619
URI: http://eprints.soton.ac.uk/id/eprint/431619
DOI: doi:10.1103/PhysRevApplied.11.024035
ISSN: 2331-7019
PURE UUID: 7ed00470-df58-4110-bfb2-a169073d3b1b

Catalogue record

Date deposited: 11 Jun 2019 16:30
Last modified: 16 Mar 2024 02:12

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Contributors

Author: Noah Waterfield Price
Author: Anuradha M. Vibhakar
Author: Roger D. Johnson
Author: Jon Schad
Author: Wittawatt Saenrang
Author: Alexendro Bombardi
Author: Francis P. Chmiel
Author: Chang-Beom Eom
Author: Paolo G. Radaelli

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