Spectrum standardization for laser-induced breakdown spectroscopy measurements

TL;DR

This paper introduces a spectrum normalization method for LIBS measurements that improves accuracy and precision by converting spectral line intensities to standard plasma conditions, effectively reducing measurement uncertainty.

Contribution

The paper proposes a novel normalization technique that accounts for plasma temperature, ionization, and number density variations, enhancing LIBS measurement reliability compared to traditional methods.

Findings

Significant reduction in measurement error and variability.

Improved accuracy in Cu concentration determination in brass alloys.

Enhanced measurement precision demonstrated with experimental data.

Abstract

This paper presents a spectra normalization method for laser-induced breakdown spectroscopy (LIBS) measurements by converting the recorded characteristic line intensity at varying conditions to the intensity under a standard condition with standard plasma temperature, degree of ionization, and total number density of the interested species to reduce the measurement uncertainty. The characteristic line intensities of the interested species are first converted to the intensity at a fixed temperature and standard degree of ionization but varying total number density for each laser pulse analysis. Under this state, if the influence of the variation of plasma morphology is neglected, the sum of multiple spectral line intensities for the measured element can be regarded proportional to the total number density of the specific element, and the fluctuation of the total number density, or the variation of ablation mass, was compensated for by the application of this relationship. In the experiments with 29 brass alloy samples, the application of this method to determine Cu concentration shows a significant improvement over generally applied normalization method for measurement precision and accuracy. The average RSD value, average value of the error bar, R2, RMSEP, and average value of the maximum relative error were: 5.29%, 0.68%, 0.98, 2.72%, 16.97%, respectively, while the above parameter values for normalization with the whole spectrum area were: 8.61%, 1.37%, 0.95, 3.28%, 29.19%, respectively.