Author: Lee Yong-Ill Song Kyuseok Cha Hyong-Ki Lee Jong-Min Park Min-Chun Lee Gae-Ho Sneddon Joseph
Publisher: Society for Applied Spectroscopy
ISSN: 0003-7028
Source: Applied Spectroscopy, Vol.51, Iss.7, 1997-07, pp. : 959-964
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Abstract
Laser-induced copper plasma emission was investigated by timeintegrated spatially resolved spectrometry. The comparative work on the plasma emission characteristics-specifically,self-absorption, line broadening, emission intensity, and metal ion formation-was carried out by the use of two different laser systems (XeCl excimer: lambda = 308 nm; Nd:YAG: lambda = 1064 and 532 nm). The characteristics of plasma emission produced by different wavelength radiation on copper atomic and ion lines under various atmospheric gases (argon, neon, and helium) and pressures (760-10 Torr) are presented. The differences in self-absorption and line broadening phenomena in the plasma location were explained by shock wave-driven excitation mechanism for atoms in the outer region in the plasma. The excitation temperatures of the plasma induced by 308- or 532-nm irradiation were also much higher that those induced by 1064-nm irradiation.
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