Jet-Cooled Emission Spectra of the Xylyl Radicals

Jet-cooled electronic emission spectra from ortho-, meta-, and para-xylenes have been recorded using a corona excited supersonic expansion apparatus. A full vibronic analysis of the \(S_{1} \rightarrow S_{0}\) transition for all three isomers has been carried out allowing for unambiguous assignments

A new nozzle assembly using Hg-photosensitized reaction has been developed to obtain a jet-cooled radical beam. This tcclmiquc was npplird to produce 3 HNO r;ldicd beam. Laser-induced fluorescence excitation spectra were obtained for the X 'A" -% 'A' systern.Tinle-rrsolved measurements yielded fluor

We have generated the p-chlorobenzyl radical in supersonic free expansion, and measured the laser-induced fluorescence (LIF) excitation spectra and LIF dispersed spectra from single vibronic levels (SVL). Based on an analysis of the dispersed spectra, we find the two band origins, spaced only 94 cm-

We have recorded stimulated Raman spectra of the central region of the u, band of ethylene, both in a jet at temperatures down to z 25 K, and in a static cell at room temperature and at x 173 K. The rotational temperatures of the jet are estimated by computer simulation of the observed spectra. Only