Title
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Influence of the emitter shape on the field-of-view in atom probe tomography
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Author
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Abstract
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Atom probe tomography (APT) is a unique analytical technique that offers three-dimensional elemental mapping with a spatial resolution down to the sub-nanometer. When APT is applied on complex heterogenous systems and/or under certain experimental conditions, that is, laser illumination, the specimen shape can deviate from an ideal hemisphere. Insufficient consideration of this aspect can introduce artifacts in the reconstructed dataset, ultimately degrading its spatial accuracy. So far, there has been limited investigation into the detailed evolution of emitter shape and its impact on the field-of-view (FOV). In this study, we numerically and experimentally investigated the FOV for asymmetric emitters and its evolution throughout the analysis depth. Our analysis revealed that, for asymmetric emitters, the ions evaporated from the topmost region of the specimen (summit) project approximately to the detector center. Furthermore, we demonstrated the implications of this finding on the FOV location for asymmetric emitters. Based on our findings, the location of the center of the FOV can deviate from the specimen central axis with an evolution depending on the evolution of the emitter shape. This study highlights the importance of accounting for the specimen shape when developing advanced data reconstruction schemes to enhance spatial resolution and accuracy. |
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Language
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English
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Source (journal)
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Microscopy and microanalysis. - Cambridge, Mass.
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Publication
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Oxford
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Oxford univ press
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2024
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ISSN
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1431-9276
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DOI
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10.1093/MAM/OZAE016
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Volume/pages
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(2024)
, 8 p.
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ISI
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001179455700001
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Pubmed ID
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38447171
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Full text (Publisher's DOI)
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