The gas phase laser induced fluorescence spectroscopy of chlorofluoromethylene

Abstract

The CFCl radical has been produced in the gas phase by both IR multiphoton photolysis of C₂F₃Cl and He metastable reaction with C₂F₃Cl. Single vibronic level fluorescence and excitation spectra taken of this species have yielded sufficient information to determine certain vibronic constants. The excited state was found to have an origin of T₀=25 283±5 cm⁻¹ with vibrational frequencies: ω₂′=394±3 cm⁻¹ and ω₃′=739±5 cm⁻¹. In the ground state, the vibrational frequencies were found to be: ω₃^″=118±10 cm⁻¹, ω₂^″=448±6 cm⁻¹, and ω₃^″=750±6 cm⁻¹. The rotational structure of the vibronic bands is similar to those of band transitions of a near prolate top, and the electronic transition has been tentatively identified as ? ¹A^″←? ¹A′ by analogy to similar CF₂ transitions. The radiative lifetime of the excited state, τ_r=700±10 nsec, was found to be independent of the rovibronic excitation frequency. The change in the major rotational constant was found to be A′−A^″=1.8±0.2 cm⁻¹.