Emission spectra of CF3 radicals. II. Analysis of the UV emission spectrum of CF3 radicals

Abstract

The spectra of the UV emission bands of the CF₃ radicals produced by the photolysis of CF₃H by the argon resonance lines and by the reaction of CF₃H with metastable Ar atoms were analyzed. Most of the bands were identified to be the combination of the ν″₁ and ν″₂ vibrational modes. The energies of the v″₁ and v″₂ vibrational levels of the ground state CF₃ are A progression having about 804 cm⁻¹ separation was observed and assigned to the ν′₁ mode in the upper excited state. The system origin of the UV emission bands was calculated to be 6.41 eV. Since the 0–12 transition was strongest in the (0–v″) progression of the ν″₁ mode, the geometry of the electronically excited state should differ from that of the ground state. Further, since only the total symmetric modes (ν₁ and ν₂ modes) were observed, the geometry of the upper emitting state may be D_3h or C_3v structure. High vibrational excitation up to v′₁=7 was observed in the photolysis of CF₃H by the Ar lamp. The energy of the excitation agrees well with the available excess energy in the photodecomposition process.