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Time-resolved spectroscopy of collinear femtosecond and nanosecond dual-pulse laser-induced Cu plasmas

Qiuyun Wang, Hongxia Qi, Xiangyu ZENG, Anmin CHEN, Xun Gao, Mingxing Jin

2021Plasma Science and Technology13 citationsDOI

Abstract

In this paper, we investigate the time-resolved spectroscopy of collinear femtosecond (fs) and nanosecond (ns) dual-pulse (DP) laser-induced plasmas. A copper target was used as an experimental sample, and the fs laser was considered as the time zero reference point. The inter-pulse delay between fs and ns laser beams was 3 μ s. First, we compared the time-resolved peak intensities of Cu (I) lines from Cu plasmas induced by fs + ns and ns + fs DP lasers with collinear configuration. The results showed that compared with the ns + fs DP, the fs + ns DP laser-induced Cu plasmas had stronger peak intensities and longer lifetimes. Second, we calculated time-resolved plasma temperatures using the Boltzmann plot with three spectral lines at Cu (I) 510.55, 515.32 and 521.82 nm. In addition, time-resolved electron densities were calculated based on Stark broadening with Cu (I) line at 521.82 nm. It was found that compared with ns + fs DP, the plasma temperatures and electron densities of the Cu plasmas induced by fs + ns DP laser were higher. Finally, we observed images of ablation craters under the two experimental conditions and found that the fs + ns DP laser-produced stronger ablation, which corresponded to stronger plasma emission.

Topics & Concepts

FemtosecondNanosecondPlasmaMaterials scienceLaserSpectroscopyPulse (music)FemtochemistryLaser-induced breakdown spectroscopyFemtosecond pulse shapingAtomic physicsAnalytical Chemistry (journal)ChemistryOpticsPhysicsChromatographyQuantum mechanicsDetectorLaser-induced spectroscopy and plasmaAnalytical chemistry methods developmentAtomic and Molecular Physics
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