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 ofT0=25 283±5 cm−1with vibrational frequencies: &ohgr;2′=394±3 cm−1and &ohgr;3′=739±5 cm−1. In the ground state, the vibrational frequencies were found to be: &ohgr;3″=118±10 cm−1, &ohgr;2″=448±6 cm−1, and &ohgr;3″=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 CF2transitions. The radiative lifetime of the excited state, &tgr;r=700±10 nsec, was found to be independent of the rovibronic excitation frequency. The change in the major rotational constant was found to beA′−A″=1.8±0.2 cm−1.
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