Title :
Diagnostics and modeling of RF discharge dissociation in N2 O
Author :
Kline, Larry E. ; Partlow, William D. ; Young, Robert M. ; Mitchell, Robert R. ; Congedo, Thomas V.
Author_Institution :
Westinghouse Sci. & Technol. Center, Pittsburgh, PA, USA
fDate :
4/1/1991 12:00:00 AM
Abstract :
Measurements were made of the RF discharge dissociation of N2 O in a parallel-plate reactor by downstream mass spectrometry using a wide range of gas flows and powers at 10 kHz and 13.56 MHz. The results show that the mass 44 signal (N2O+), which is a measure of the amount of undissociated N2O, is a function of the discharge input energy per N2O molecule (eV/N 2O). A plug flow, rate equation model of the discharge was used to predict the experimental dissociation rates. A DC Monte Carlo simulation was used to calculate rate coefficients for electron-impact neutral dissociation, ionization, and dissociative ionization. The rate equation model also includes reactions among the dissociation products of N2O and species which are synthesized in the discharge, as well as neural and electron-ion recombination at the electrodes. The model predictions identify the major reaction pathways and the sensitivities of the results to the rate coefficient values used
Keywords :
high-frequency discharges; mass spectra; molecular dissociation; nitrogen compounds; spectrochemical analysis; 10 kHz; 13.56 MHz; DC Monte Carlo simulation; N2O; RF discharge dissociation; diagnostics; dissociative ionization; downstream mass spectrometry; electron-impact neutral dissociation; ionization; modeling; parallel-plate reactor; plug flow rate equation model; radiofrequency; Energy measurement; Equations; Fluid flow; Fluid flow measurement; Inductors; Ionization; Mass spectroscopy; Plugs; Predictive models; Radio frequency;
Journal_Title :
Plasma Science, IEEE Transactions on
