Laser induced fluorescence of the PH2 radical

Dichlorosilylene, Sic12 , in the gas phase has been detected by laser-induced fluorescence of the x 'B1-?? 'Al transition in the 309-333 mn region. The wavenumber of the 0: transition is determined to be 30003.6 f 0.5 cm-' (333.20 nm). The fundamental vibrational frequencies are assigned to be IJ~ =

HSiF has been detected by laser-induced fluorescence, following the formation of the ground-state radical in the flow reaction of SiH2 with Fz at a total pressure of 0.05-0.15 Ton. We report here the radiitive life-tie of the fust vibronic state of HSiF (A 'A") as well as a tentative assignment of

Laser-mduced fluorescence of the x 'A"-% 'A' transition in the gas-phase CHF radical has been observed, foBowing the fo\_rmatron of the ground-state radical by 1R multiple-photon dissociation. Radiative kfetimes of four vibroruc states of CHF (A 1 A") are reported. \* Throughout tius paper ape value

In the spectral range 34500-40000 cm-1, two molecular species were detected by means of laser-induced fluorescence in the 193 nm photolysis of acetylene: one is C2(a 3Hu), the other is most likely C2H(X). The identification of C2H is based upon the rotational constants (B"= 1.4397-1.4534 cm-t), the