Self-Calibrated Laser-Induced Breakdown Spectroscopy for the Quantitative Elemental Analysis of Suspended Volcanic Ash.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-07-01 Epub Date: 2024-03-26 DOI:10.1177/00037028241241076
Aya Taleb, Marcella Dell'Aglio, Rosalba Gaudiuso, Daniela Mele, Pierfrancesco Dellino, Alessandro De Giacomo
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Abstract

Real-time analysis of fine ash in volcanic plumes, which represent magma fragments expelled from the crater during explosive eruptions, is a valuable tool for volcano monitoring and hazard assessment. To obtain the chemical characterization of the juvenile pyroclastic material emitted in volcanic plumes, many analytical techniques can be used. Among them, laser-induced breakdown spectroscopy (LIBS) is the one that can most easily be adapted to advanced applications in extreme environments. In this paper, LIBS experiments based on self-calibrated approaches are used to determine the elemental composition of suspended volcanic ash. To simulate the conditions of dispersed volcanic ash in the atmosphere, different sizes of volcanic ash samples are suspended in the air by laser-induced shockwaves in a dedicated chamber, and a parametric study is carried out to establish the optimal experimental conditions for recording usable plasma emission spectra for each ash size. The quantitative analysis is performed using a self-calibrated analytical method, including calibration-free LIBS, which is based on the calculation of the spectral radiance of a uniform plasma in local thermodynamic equilibrium. The method accounts intrinsically for self-absorption since it modifies the intensity of spectral lines and thus leads to an underestimation of the elemental fraction. An intensity calibration of the spectra based on the measurements of Fe lines intensities was also used in this work to deduce the apparatus response from the spectrum itself and avoid the use of standard calibration lamps. Results demonstrate the potential of real-time measurements of elemental fractions in volcanic ash with good agreement with the literature composition.

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用于悬浮火山灰定量元素分析的自校准激光诱导击穿光谱仪。
火山羽流是火山爆发时从火山口喷出的岩浆碎片,对火山羽流中的细灰进行实时分析是火山监测和危害评估的重要工具。要获得火山羽流中喷出的幼年火成碎屑物质的化学特征,可以使用多种分析技术。其中,激光诱导击穿光谱(LIBS)是最容易应用于极端环境的先进技术。本文利用基于自校准方法的激光诱导击穿光谱实验来测定悬浮火山灰的元素组成。为了模拟火山灰在大气中分散的条件,在专用的舱室中用激光诱导冲击波将不同大小的火山灰样品悬浮在空气中,并进行参数研究,以确定记录每种火山灰大小的可用等离子体发射光谱的最佳实验条件。定量分析采用自校准分析方法(包括免校准 LIBS)进行,该方法基于对处于局部热力学平衡状态的均匀等离子体的光谱辐射率的计算。该方法从本质上考虑了自吸收问题,因为自吸收会改变光谱线的强度,从而导致元素含量被低估。这项工作还使用了基于铁线强度测量的光谱强度校准,以便从光谱本身推断仪器响应,避免使用标准校准灯。结果表明,实时测量火山灰中的元素组分与文献成分十分吻合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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