Spectra-assisted laser focusing in quantitative analysis of laser-induced breakdown spectroscopy for copper alloys

Abstract Laser-induced breakdown spectroscopy (LIBS) is a capable technique for elementary analysis, while LIBS quantitation is still under development. In quantitation, precise laser focusing plays an important role because it ensures the distance between the laser and samples. In the present work,...

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Published in	Plasma science & technology Vol. 25; no. 4; pp. 45510 - 45515
Main Authors	LI, Shoujie, ZHENG, Ronger, DEGUCHI, Yoshihiro, YE, Wangquan, TIAN, Ye, GUO, Jinjia, LI, Ying, LU, Yuan
Format	Journal Article
Language	English
Published	IOP Publishing 01.04.2023
Subjects	copper alloys laser focusing LIBS quantitative analysis spectra assistance
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Abstract	Abstract Laser-induced breakdown spectroscopy (LIBS) is a capable technique for elementary analysis, while LIBS quantitation is still under development. In quantitation, precise laser focusing plays an important role because it ensures the distance between the laser and samples. In the present work, we employed spectral intensity as a direct way to assist laser focusing in LIBS quantitation for copper alloys. It is found that both the air emission and the copper line could be used to determine the position of the sample surface by referencing the intensity maximum. Nevertheless, the fine quantitation was only realized at the position where the air emission (e.g. O (I) 777.4 nm) reached intensity maximum, and also in this way, a repeatable quantitation was successfully achieved even after 120 days. The results suggested that the LIBS quantitation was highly dependent on the focusing position of the laser, and spectra-assisted focusing could be a simple way to find the identical condition for different samples’ detection. In the future, this method might be applicable in field measurements for LIBS analysis of solids.
AbstractList	Abstract Laser-induced breakdown spectroscopy (LIBS) is a capable technique for elementary analysis, while LIBS quantitation is still under development. In quantitation, precise laser focusing plays an important role because it ensures the distance between the laser and samples. In the present work, we employed spectral intensity as a direct way to assist laser focusing in LIBS quantitation for copper alloys. It is found that both the air emission and the copper line could be used to determine the position of the sample surface by referencing the intensity maximum. Nevertheless, the fine quantitation was only realized at the position where the air emission (e.g. O (I) 777.4 nm) reached intensity maximum, and also in this way, a repeatable quantitation was successfully achieved even after 120 days. The results suggested that the LIBS quantitation was highly dependent on the focusing position of the laser, and spectra-assisted focusing could be a simple way to find the identical condition for different samples’ detection. In the future, this method might be applicable in field measurements for LIBS analysis of solids.
Author	GUO, Jinjia LI, Shoujie TIAN, Ye YE, Wangquan LI, Ying ZHENG, Ronger LU, Yuan DEGUCHI, Yoshihiro
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Snippet	Abstract Laser-induced breakdown spectroscopy (LIBS) is a capable technique for elementary analysis, while LIBS quantitation is still under development. In...
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Title	Spectra-assisted laser focusing in quantitative analysis of laser-induced breakdown spectroscopy for copper alloys
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