Reactive quenching studies of Xe (6s, 3P2) metastable atoms by chlorine containing molecules

Abstract

The XeCl* emission spectrum has been used to study the reactions of Xe (6s, ³P₂) metastable atoms with 20 chlorine containing reagents. Although the total quenching rate constants are large, only Cl₂, the mixed halogens and Group VI chlorides have high product branching fractions for XeCl* excimer formation. From analysis of the low pressure XeCl* emission spectra, the ratios for XeCl (III,1/2 or B,1/2) and XeCl (II,3/2 or C,3/2) formation were determined. Using results presented in the following paper, the vibrational energy distributions of the XeCl* molecules also can be estimated. A wide difference, depending upon reagent, is observed for the vibrational energy disposal. The short wavelength limit of the XeCl (B–X) emission can be used to assign upper limits to D°₀ (R–Cl) and this work gives D°₀ (SCl–Dl) ?44.7; D°₀ (ClS₂–Cl) ?46.2, D°₀ (SOCl–Cl) ?53.9; D°₀ (SO₂–Cl) ?58.5, and D°₀ (PCl₂–Cl) ?77.7 kcal mole⁻¹. For purposes of comparison, the XeCl* emission spectra also were obtained from the reaction of Xe (6s, ³P₁) resonance atoms with Cl₂, PCl₂, CCl₄, and COCl₂. The branching ratios and energy disposal for Xe ( ³P₂) and Xe ( ³P₁) reactions appear to be qualitatively similar. Based upon all of these data, the dynamics of the reactions between Xe ( ³P₂) and the chlorine containing reagents are discussed and compared to the models in the literature used previously for the reactions of alkali metal atoms with halogen containing molecules. Characteristic XeI* and XeBr* spectra from Xe ( ³P₂) atom reactions are included in an Appendix.