Confinement effect of laser ablation plume in liquids probed by self-absorption of C2 Swan band emission

Abstract

The (0,0) Swan band of the C2 molecules in a laser ablation plume produced on the surface of graphite target submerged in water was used as a probe to estimate the density of C2 molecules in the plume. Observed emission spectra were reproduced excellently by introducing a self-absorption parameter to the theoretical spectral profile expected by a rotational population distribution at a certain temperature. The optical density of the ablation plume as a function of time was determined as a best-fit parameter by the quantitative fitting of the whole spectral profile. The results show high optical densities for the laser ablation plume in water compared with that in air. It is related to the plume confinement or the expansion, which are the important phenomena influencing the characteristics of laser ablation plumes in liquids. © 2005 American Institute of Physics.