Title :
Laser-particulate interactions in a dusty RF plasma
Author :
Stoffels, E. ; Stoffels, W.W. ; Vender, D. ; Kroesen, G.M.W. ; de Hoog, F.J.
Author_Institution :
Eindhoven Univ. of Technol., Netherlands
fDate :
4/1/1994 12:00:00 AM
Abstract :
The interaction of particulates formed in an argon RF discharge containing 1-5% CCl2F2 admixture with a pulsed infrared laser (Nd:YAG, intensity ~109 W m-2, pulse duration ~10-4 s) has been studied in situ. The white light emitted during this process has been monitored as a function of time and wavelength using a fast photo diode and an optical multichannel analyser. The spectra have been fitted with blackbody curves with a standard deviation of 5%. A spectral temperature of about 3500 K has been obtained for various plasma conditions and attributed to the decomposition temperature of the particulate material. A model based on laser heating, internal heat conduction and chemical decomposition is compared with the experimental results. This model predicts the time constants for heating and decomposition of the particulates and explains the dependence of the measured emission intensity on the laser intensity
Keywords :
argon; discharges (electric); high-frequency discharges; light propagation in plasma; plasma diagnostics; plasma production and heating by laser beam; plasma temperature; 0.001 s; Ar; Nd:YAG; YAG:Nd; YAl5O12:Nd; blackbody curves; chemical decomposition; dichlorodifluoromethane; dusty RF plasma; emission intensity; internal heat conduction; laser heating; laser intensity; laser-particulate interactions; optical multichannel analyser; photo diode; pulsed infrared laser; spectral temperature; time constants; white light; Argon; Atmospheric modeling; Chemical lasers; Dusty plasma; Heating; Laser modes; Optical pulses; Plasma measurements; Plasma temperature; Radio frequency;
Journal_Title :
Plasma Science, IEEE Transactions on
