Enhanced quantification for 3D SEM–EDS : using the full set of available X-ray lines
Burdet, Pierre; Croxall, S. A.; Midgley, P. A.
2015

Résumé

An enhanced method to quantify energy dispersive spectra recorded in 3D with a scanning electron microscope (3D SEM–EDS) has been previously demonstrated. This paper presents an extension of this method using all the available X-ray lines generated by the beam. The extended method benefits from using high energy lines, that are more accurately quantified, and from using soft X-rays that are highly absorbed and thus more surface sensitive. The data used to assess the method are acquired with a dual beam FIB/SEM investigating a multi-element Ni-based superalloy. A high accelerating voltage, needed to excite the highest energy X-ray line, results in two available X-ray lines for several elements. The method shows an improved compositional quantification as well as an improved spatial resolution.

Détails

Titre Enhanced quantification for 3D SEM–EDS : using the full set of available X-ray lines
Auteur(s)/ trice(s) Burdet, Pierre (University of Cambridge, Cambridge, UK)
Croxall, S. A. (University of Cambridge, Cambridge, UK)
Midgley, P. A. (University of Cambridge, Cambridge, UK)
Date 2015-01
Publié dans Ultramicroscopy
Volume 2015, vol. 148, pp. 158-167
Pagination 10 p.
DOI https://doi.org/10.1016/j.ultramic.2014.10.010
ISSN 0304-3991
Mots-clés (libres) energy dispersive X-ray spectrometry ; focused ion beam ; tomographic spectral imaging ; 3D chemical analysis ; 3D microanalysis ; quantification ; 3D image analysis
Type d'article scientifique
Domaine Ingénierie et Architecture
Ecole HEIG-VD
Institut COMATEC – Institut Conception mécanique et technologies des matériaux
Note BURDET, Pierre est chercheur à la HES-SO, HEIG-VD, depuis 2018.
Cette publication a été rédigée par un membre de l’institut COMATEC - Institut de Conception, Matériaux, Emballage & Conditionnement.
Le document apparaît dans Articles scientifiques
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