Two-dimensional laser-induced fluorescence imaging of metastable density in low-pressure radio frequency argon plasmas with added O2, Cl2, and CF4

Abstract

The effect of minor additions of O₂, Cl₂, and CF₄ on the argon metastable relative density and spatial distribution in low‐pressure, radio‐frequency argon plasmas, generated within a parallel‐plate Gaseous Electronics Conference reference reactor, has been investigated using planar laser‐induced fluorescence imaging. For the conditions examined (33.3 Pa, 75–300 V, 2/Ar discharges examined here, the spatial distribution of metastables was similar to that of the electropositive, pure argon cases, exhibiting a strong axial peak near the interface between the plasma bulk and the sheath at the powered electrode. In contrast, the addition of either Cl₂ or CF₄ was found to significantly modify the spatial distribution of the emission intensity and metastable density, resulting in a more symmetric and uniform axial metastable distribution. This change in metastable distribution for these mixtures was particularly apparent at lower powers and/or higher Cl₂/CF₄ concentrations, and suggests a transition from an electropositive to a somewhat electronegative discharge.