<div class="csl-bib-body">
<div class="csl-entry">Cascales-Sandoval, M. A., Hierro-Rodríguez, A., Ruiz-Gómez, S., Skoric, L., Donnelly, C., Niño, M. A., McGrouther, D., McVitie, S., Flewett, S., Jaouen, N., Belkhou, R., Foerster, M., & Fernandez-Pacheco Chicon, A. (2024). Determination of optimal experimental conditions for accurate 3D reconstruction of the magnetization vector via XMCD-PEEM. <i>Journal of Synchrotron Radiation</i>, <i>31</i>(2), 336–342. https://doi.org/10.1107/S1600577524001073</div>
</div>
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dc.identifier.issn
0909-0495
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dc.identifier.uri
http://hdl.handle.net/20.500.12708/195645
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dc.description.abstract
This work presents a detailed analysis of the performance of X-ray magnetic circular dichroism photoemission electron microscopy (XMCD-PEEM) as a tool for vector reconstruction of magnetization. For this, 360° domain wall ring structures which form in a synthetic antiferromagnet are chosen as the model to conduct the quantitative analysis. An assessment is made of how the quality of the results is affected depending on the number of projections that are involved in the reconstruction process, as well as their angular distribution. For this a self-consistent error metric is developed which allows an estimation of the optimum azimuthal rotation angular range and number of projections. This work thus proposes XMCD-PEEM as a powerful tool for vector imaging of complex 3D magnetic structures.
en
dc.language.iso
en
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dc.publisher
INT UNION CRYSTALLOGRAPHY
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dc.relation.ispartof
Journal of Synchrotron Radiation
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dc.rights.uri
http://creativecommons.org/licenses/by/4.0/
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dc.subject
360° domain wall rings
en
dc.subject
X-ray magnetic circular dichroism photo-emission electron microscopy
en
dc.subject
XMCD-PEEM
en
dc.subject
nanomagnetism
en
dc.subject
three-dimensional magnetic vector reconstruction
en
dc.title
Determination of optimal experimental conditions for accurate 3D reconstruction of the magnetization vector via XMCD-PEEM
en
dc.type
Article
en
dc.type
Artikel
de
dc.rights.license
Creative Commons Namensnennung 4.0 International
de
dc.rights.license
Creative Commons Attribution 4.0 International
en
dc.identifier.pmid
38372673
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dc.contributor.affiliation
Universidad de Oviedo, Spain
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dc.contributor.affiliation
Max Planck Institute for Chemical Physics of Solids, Germany
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dc.contributor.affiliation
University of Cambridge, United Kingdom of Great Britain and Northern Ireland (the)
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dc.contributor.affiliation
Max Planck Institute for Chemical Physics of Solids, Germany
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dc.contributor.affiliation
ALBA Synchrotron (Spain), Spain
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dc.contributor.affiliation
University of Glasgow, United Kingdom of Great Britain and Northern Ireland (the)
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dc.contributor.affiliation
University of Glasgow, United Kingdom of Great Britain and Northern Ireland (the)
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dc.contributor.affiliation
Pontificia Universidad Católica de Valparaíso, Chile
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dc.contributor.affiliation
Synchrotron soleil, France
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dc.contributor.affiliation
Synchrotron soleil, France
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dc.contributor.affiliation
ALBA Synchrotron (Spain), Spain
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dc.description.startpage
336
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dc.description.endpage
342
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dc.type.category
Original Research Article
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tuw.container.volume
31
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tuw.container.issue
2
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tuw.journal.peerreviewed
true
-
tuw.peerreviewed
true
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tuw.researchTopic.id
M1
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tuw.researchTopic.name
Surfaces and Interfaces
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tuw.researchTopic.value
100
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dcterms.isPartOf.title
Journal of Synchrotron Radiation
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tuw.publication.orgunit
E134-06 - Forschungsbereich Physics of three-dimensional Nanomaterials
