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- Title
Expansion dynamics of the plasma plume created by laser ablation in a background gas.
- Authors
Garrelie, F.; Champeaux, C.; Catherinot, A.
- Abstract
Abstract. The dynamics of the expansion of the plasma plume induced by laser ablation of a copper target at a fluence of 17 J/cm[sup 2] was investigated theoretically by means of a Monte Carlo simulation. When the expansion occurs under a relatively high pressure, the ambient gas particles may be involved in the collective motion of the plume. The simulation allows the study of the simultaneous collective motion of different species, such as the laser-ablated and the ambient gas particles. The influence of the background gas nature and pressure on the laser-induced plasma plume expansion behavior was studied. The expansion dynamics were found to be different in the case of the expansion in ambient gases of different molecular weight. The dynamics of the plume expansion under an argon pressure of 200 Pa seem to be strongly related to the equilibration of the pressure gradients in the gas phase, and evidence of the oscillatory behavior of the plume expansion was shown from the evolution over time of the pressure profiles in the plume. This behavior has also been observed in similar conditions for a krypton atmosphere, but for a lower pressure than for argon. The vertical flow formation at the plume periphery, involving both the laser-ablated and the argon particles at moderate pressure, was also predicted from the Monte Carlo simulation.
- Subjects
PLASMA gases; LASER ablation; MONTE Carlo method; COPPER
- Publication
Applied Physics A: Materials Science & Processing, 1999, Vol 69, Issue 7, pS55
- ISSN
0947-8396
- Publication type
Article
- DOI
10.1007/s003390051355