Characterization of Active Species in Microwave Discharge Afterglows of N\(_2\)-H\(_2\), Ar-N\(_2\)-H\(_2\), and Ar-N\(_2\)-O\(_2\) Gas Mixtures

Abstract

This study investigates the densities of active species, including N and O atoms, N\(_2\)(A), N\(_2\)(X, v > 13) metastable molecules, and N\(_2^+\) ions, in the afterglows of N\(_2\)-H\(_2\), Ar-N\(_2\)-H\(_2\), and Ar-N\(_2\)-O\(_2\) microwave discharges. Optical emission spectroscopy and NO titration methods were used for precise calibration. The results reveal significant variations in active species densities across different gas mixtures, providing insights into optimizing plasma conditions.

The -atom density is in the range of 10¹⁵cm^-3 in N₂ -H₂, Ar - N₂ and Ar - N₂ - H₂. It is lower by a factor of 4 in Ar - N₂ - O₂ gas mixtures.

The -atom density coming from O₂ impurity in the N₂ - xH₂ discharges decrease with x from 7 10¹³ cm^-3 for x=0 to 3 10¹³cm^-3 for x 2.5%.

A strong O₂ dissociation was found in the Ar-x(N₂-5%O₂) gas mixtures, decreasing from a full dissociation [0] = 2[O₂] at x 20% to a half dissociation ([O]=[O₂]) at x 50%.