FTIR spectrum of benzene in a supersonic expansion

The infrared spectrum of CHCIFz (freon 22, chlorodifluoromethane) in the range of the CH stretching fundamental v, and the two CF stretching fundamentals vj and vs has been measured in a supersonic free jet expansion with rotational temperatures of about 50 K and resolutions up to 0.004 cm-'. The fi

Optogalvanic spectra have been obtained arising from transitions between electronically excited states of excimers formed in adc discharge with supersonic expansion. In this method, tunable cw laser radiation is incident on the discharge while optogalvanic signals are measured directly across the di

The infrared absorption spectrum of a rotationally cooled supersonic jet of neat methyl chloride is reported. The rotational constants of 13, ~2 and ~1 are determined. Using a 0.05 mm nozzle diameter and a 2 atm sta\_aation pressure, a Boltzmann population distribution is found with a characteristic

The vIbrational structure in the laser-induced fluorescence excitation spectrum of the fust excited TT\* .-n transition of thiophogene, seeded in a supersonic beam of argon, is reported. Hot bands are identified empirically by variation of beam temperature, and vibronic assignments are adjusted as r

The fluorescence excitation spectrum and Ikoresccnce spectra from 25 different vibrational ievels of the St state of 1,4dihydrosyanthraquinone were measured. From these spectrc, the frequencies of non-totally symmetric vibrations in the Su state were deduced. Strong mhing of normal coordinates under

A high-resolution Fourier transform interferometer (Bruker IFS 120 HR) was combined with a uniform supersonic expansion produced by means of axisymmetric Laval nozzles. The geometry profile of the nozzle enabled us to work under precise thermodynamic and kinetic conditions. The effect of the cooling