Title Effect of femtosecond ultraviolet and infrared laser wavelength on plasma characteristics of metals, ceramics and glass samples using femtosecond laser-induced breakdown spectroscopy /
Authors Zaremba, Gytis ; Paipulas, Domas ; Vaičaitis, Virgilijus ; Balachninaitė, Ona
DOI 10.1177/00037028241240782
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Is Part of Applied spectroscopy.. Thousand Oaks : Sage Publications. 2024, vol. 78, iss. 6, p. 579-590.. ISSN 0003-7028. eISSN 1943-3530
Keywords [eng] plasma emission ; femtosecond laser-induced breakdown spectroscopy ; fs-LIBS ; femtosecond UV and IR LIBS ; optical emission spectroscopy ; plasma plume ; electron density ; plasma temperature
Abstract [eng] In this work, we present studies on the effect of laser wavelengths on the laser-induced plasma characterization using a femtosecond (fs) ytterbium-doped potassium-gadolinium tungstate (Yb:KGW) laser. Plasma plumes of copper, steel, ceramics, and glass samples were induced using a multiple shot of 200 fs laser pulses with 1030 nm and 343 nm wavelengths at fixed laser fluence () and analyzed using the laser-induced breakdown spectroscopy (LIBS) technique. Time-resolved fs-LIBS measurements were performed on the same set of samples and under the same experimental conditions. For the calculation of plasma parameters, the set of spectral lines of Cu(I) (for copper sample), Fe(I) (for steel sample), and Ca(I), K(I) (for glass and ceramics samples) were observed. The plasma electron temperature and density were evaluated from the Boltzmann plots and Stark-broadening profiles of the plasma spectral lines, assuming the local thermodynamic equilibrium condition. Time-resolved plasma temperature and electron density for fs-LIBS using ultraviolet (UV) and infrared (IR) laser wavelengths were analyzed and no significant dependence on fs laser wavelength was observed for any of the samples. However, for all samples the signal-to-noise ratio (SNR) significantly increased using UV laser radiation: copper (), steel (), glass (), and ceramics ( ). Therefore, by using a fs UV laser wavelength for laser-induced breakdown spectroscopy experiments, for certain materials the SNR and at the same time the limit of detection can be significantly enhanced.
Published Thousand Oaks : Sage Publications
Type Journal article
Language English
Publication date 2024
CC license CC license description