Fourier Transform Fluorescence Excitation Spectroscopy in a Supersonic Jet

The fluorescence excitation spectrum of [2.2]paracyclophane has been recorded from 30675 to 32570 cm-'. Two inter-ring vibrations, the breathing mode and the twisting mode, are responsible for the extensive vibronic structure in this lowest-lying electronic transition. The breathing mode gives rise

The fluorescence excitation spectra of the 1: 1 complexes of indole with DsO in a cold ( z 1 K) expansion jet are reported and compared with those of the Hz0 complexes. For the more red-shifted complex, the small isotope effect and the long Franck-Condon progression in the 35 cm-' intermolecular vib

Infrared absorption spectra of the Ye mode of SF, diluted in helium and in argon were recorded using pinhole and slit nozzles by examining the resultant supersonic jets with FfIR spectroscopy. Spectra of the species ( SF,,)z, ( SF6)3 and (SF,),Ar,, were observed.

The HCO radical was produced by photolysis of acetaldehyde in a supersonic molecular jet. HCO \(\hat{B}^{2} A^{\prime}-\tilde{X}^{2} A^{\prime}\) transitions were detected by laser-induced fluorescence. Eight vibronic bands were observed that showed both \(a\) - and \(b\)-type transitions, indicatin