Open AccessLaser-induced breakdown spectroscopy-based geochemical fingerprinting for the rapid analysis and discrimination of minerals: the example of garnet
Author(s) -
Daniel Alvey,
Kenneth D. Morton,
Russell S. Harmon,
Jennifer L. Gottfried,
Jeremiah J. Remus,
Leslie M. Collins,
Michael A. Wise
Publication year - 2010
Publication title -
applied optics
Language(s) - English
Resource type - Journals
ISSN - 0003-6935
DOI - 10.1364/ao.49.00c168
Subject(s) - laser induced breakdown spectroscopy , spectroscopy , linear discriminant analysis , broadband , compositional data , materials science , analytical chemistry (journal) , optics , laser , partial least squares regression , mineralogy , geology , computer science , artificial intelligence , physics , chemistry , machine learning , chromatography , quantum mechanics
Laser-induced breakdown spectroscopy (LIBS) is an analytical technique real-time geochemical analysis that is being developed for portable use outside of the laboratory. In this study, statistical signal processing and classification techniques were applied to single-shot, broadband LIBS spectra, comprising measured plasma light intensities between 200 and 960 nm, for a suite of 157 garnets of different composition from 92 locations worldwide. Partial least squares discriminant analysis was applied to sets of 25 LIBS spectra for each garnet sample and used to classify the garnet samples based on composition and geographic origin. Careful consideration was given to the cross-validation procedure to ensure that the classification algorithm is robust to unseen data. The results indicate that broadband LIBS analysis can be used to discriminate garnets of different composition and has the potential to discern geographic origin. © 2010
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