Diphenylbutadiene in supersonic jets: Spectroscopy and picosecond dynamics

New details of the dynamics and spectroscopy of trans-stilbene are revealed by picosecond excitation of jet-cooled and collision-free molecules. The fluorescence spectra clearly show the low-frequency torsional modes of the ground state. The time-resolved fluorescence following $1 excitation exhibit

We report time-resolved fluorescence decay lifetimes from photoselected states of jet-cooled 4-ethyl-trans-stilbene (4ETS) and 4-n-propyl-trans-stilbene (4PTS) in the energy range E, = O-2800 cm-' above the S, origin. Alkyl substitution enhances the non-radiative decay rates. These data can be fitte

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

Coherent Stokes and anti-Stokes Raman scattering CSRS and CARS have been employed to study the spectroscopy of nitrogen molecules and dusters in the expansion of a supersonic jet. In the vibrational spectrum, at strong stagnation conditions, an intense redshifted peak is observed which can be assign