Comparative study on quantitative carbon content mapping in archaeological ferrous metals with laserinduced plasma spectroscopy (LIBS) and nuclear reaction analysis (NRA) for 3D representation by LIBS

Comparative study on quantitative carbon content mapping in archaeological ferrous metals with laserinduced plasma spectroscopy (LIBS) and nuclear reaction analysis (NRA) for 3D representation by LIBS

The carbon content distribution of ferrous archaeological artefacts in a quantitative way allows us to understand the nature of the materials. Our previous works have ever proved that the use of laser-induced breakdown spectroscopy (LIBS) could be an efficient method to solve problems of in situ ana...

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Veröffentlicht in:Spectrochimica acta. Part B: Atomic spectroscopy 2022, Vol.194
Hauptverfasser: Bai, Xueshi, Calligaro, Thomas, Pichon, Laurent, Moignard, Brice, Lemasson, Quentin, Gosselin, Manon, Richiero, Sarah, Dillmann, Philippe, Téreygeol, Florian, Auber--Le Saux, Jessica, Wilkie-Chancellier, Nicolas, Detalle, Vincent
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Analytical chemistry
Archaeology and Prehistory
Chemical Sciences
Humanities and Social Sciences
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container_title Spectrochimica acta. Part B: Atomic spectroscopy
container_volume 194
creator Bai, Xueshi
Calligaro, Thomas
Pichon, Laurent
Moignard, Brice
Lemasson, Quentin
Gosselin, Manon
Richiero, Sarah
Dillmann, Philippe
Téreygeol, Florian
Auber--Le Saux, Jessica
Wilkie-Chancellier, Nicolas
Detalle, Vincent
description The carbon content distribution of ferrous archaeological artefacts in a quantitative way allows us to understand the nature of the materials. Our previous works have ever proved that the use of laser-induced breakdown spectroscopy (LIBS) could be an efficient method to solve problems of in situ analysis and offer a high spatial resolution. To assess the ability of this quantification in an absolute way the carbon quantification by LIBS is compared in this paper with the nuclear reaction analysis (NRA), one of the ion beam analysis (IBA) techniques generated by a deuterium ion beam. The IBA analysis has specific advantages, especially in terms of precision and non-destructiveness. A validation study is also presented on quantitative carbon content mapping in archaeological ferrous metals with LIBS and deuterium ion beam analysis. The application of LIBS quantitative mapping on different structures of archaeological pieces shows that the carbon content distribution can be well determined, demonstrating the 2D mapping capabilities of the laser techniques. With the help of LIBS stratigraphic analysis, a 3D deeper insight on microscale features presents a heterogeneity, induced better understanding of material organization at the microscale.
doi_str_mv 10.1016/j.sab.2022.106454
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subjects Analytical chemistry
Archaeology and Prehistory
Chemical Sciences
Humanities and Social Sciences
title Comparative study on quantitative carbon content mapping in archaeological ferrous metals with laserinduced plasma spectroscopy (LIBS) and nuclear reaction analysis (NRA) for 3D representation by LIBS
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