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Imaging of electric-field-induced domain structure in DyMnO3 nanocrystals

Imaging of electric-field-induced domain structure in DyMnO3 nanocrystals
Imaging of electric-field-induced domain structure in DyMnO3 nanocrystals
Multiferroic materials that exhibit interacting and coexisting properties, like ferroelectricity and ferromagnetism, possess significant potential in the development of novel technologies that can be controlled through the application of external fields. They also exhibit varying regions of polarity, known as domains, with the interfaces that separate the domains referred to as domain walls. In this study, using three-dimensional (3D) bragg coherent diffractive imaging (BCDI), we investigate the dynamics of multiferroic domain walls in a single hexagonal dysprosium manganite (h-DyMnO) nanocrystal under varying applied electric field. Our analysis reveals that domain wall motion is influenced by the pinning effects, and a threshold voltage of +3 V is required to overcome them. Using circular mean analysis and phase gradient mapping, we identified localised phase realignment and high-gradient regions corresponding to domain walls, providing insights into the behaviour of multiferroic systems under external stimuli.
2731-9229
Nellikkal, Mansoor A.
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Morrison, Robert
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Mokhtar, Ahmed H.
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Porter, Daniel G.
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Lichtenberg, Frank
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Bombardi, Alexendro
ebbc9264-3bf7-484f-b49d-c8c817a0f0af
Newton, Marcus C.
fac92cce-a9f3-46cd-9f58-c810f7b49c7e
Nellikkal, Mansoor A.
f3e920a0-5497-4092-b083-42105cf9dfbc
Morrison, Robert
6d1bfe9e-9529-42cb-b656-f2cc4cf17f63
Mokhtar, Ahmed H.
f894fae3-5337-4364-a75d-02c35a3db64d
Porter, Daniel G.
70360362-ea3f-40bd-ae01-41dbf0d5ed35
Lichtenberg, Frank
a6a5a0b1-347b-49e5-ae13-1d536cecdb53
Bombardi, Alexendro
ebbc9264-3bf7-484f-b49d-c8c817a0f0af
Newton, Marcus C.
fac92cce-a9f3-46cd-9f58-c810f7b49c7e

Nellikkal, Mansoor A., Morrison, Robert, Mokhtar, Ahmed H., Porter, Daniel G., Lichtenberg, Frank, Bombardi, Alexendro and Newton, Marcus C. (2024) Imaging of electric-field-induced domain structure in DyMnO3 nanocrystals. Discover Nano. (doi:10.1186/s11671-024-04165-8).

Record type: Article

Abstract

Multiferroic materials that exhibit interacting and coexisting properties, like ferroelectricity and ferromagnetism, possess significant potential in the development of novel technologies that can be controlled through the application of external fields. They also exhibit varying regions of polarity, known as domains, with the interfaces that separate the domains referred to as domain walls. In this study, using three-dimensional (3D) bragg coherent diffractive imaging (BCDI), we investigate the dynamics of multiferroic domain walls in a single hexagonal dysprosium manganite (h-DyMnO) nanocrystal under varying applied electric field. Our analysis reveals that domain wall motion is influenced by the pinning effects, and a threshold voltage of +3 V is required to overcome them. Using circular mean analysis and phase gradient mapping, we identified localised phase realignment and high-gradient regions corresponding to domain walls, providing insights into the behaviour of multiferroic systems under external stimuli.

Text
In-Situ Bragg Coherent Diffraction Imaging of Domain Wall Motion in Multiferroic DyMnO3 Nanocrystal - Accepted Manuscript
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s11671-024-04165-8 - Version of Record
Available under License Creative Commons Attribution.
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More information

Accepted/In Press date: 4 December 2024
e-pub ahead of print date: 15 December 2024
Published date: 15 December 2024
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Identifiers

Local EPrints ID: 496471
URI: http://eprints.soton.ac.uk/id/eprint/496471
DOI: doi:10.1186/s11671-024-04165-8
ISSN: 2731-9229
PURE UUID: acb28e33-735c-4c4d-a92a-ab48962d4e59
ORCID for Ahmed H. Mokhtar: ORCID iD orcid.org/0000-0002-7675-5616
ORCID for Marcus C. Newton: ORCID iD orcid.org/0000-0002-4062-2117

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Date deposited: 16 Dec 2024 17:41
Last modified: 17 Dec 2024 02:46

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Contributors

Author: Mansoor A. Nellikkal
Author: Robert Morrison
Author: Ahmed H. Mokhtar ORCID iD
Author: Daniel G. Porter
Author: Frank Lichtenberg
Author: Alexendro Bombardi
Author: Marcus C. Newton ORCID iD

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