Rovibrational analysis of the ν1 fundamental of CF3Cl from diode laser spectra in a supersonic slit-jet expansion

High-resolution infrared spectra have been measured for mixtures of CHF 2 Cl in Ne, expanded in a supersonic planar jet. We present the analysis for the ν 3 and ν 8 fundamentals of CHF 2 35 Cl and CHF 2 37 Cl.

High-resolution infrared spectra have been measured for mixtures of CCl 3 F in Ne, expanded in a supersonic planar jet. We present the first analysis for the 4 fundamental and a complete analysis for the 1 band. Accurate spectroscopic constants have been obtained for both the 1 fundamental of the mo

High resolution infrared spectra (0.001 cm À1 FWHM) have been measured for mixtures of 1-chloro-1,1-difluoroethane in Ne, expanded in a supersonic planar jet. The m 14 fundamental has been analyzed for both isotopic species, CH 3 CF 2 35 Cl and CH 3 CF 2 37 Cl.

High resolution infrared spectra have been measured for mixtures of 1,1,1,2-tetrafluoroethane in Ne, expanded in a supersonic planar jet. The m 14 fundamental is an essentially unperturbed C-type band, exhibiting many DK c ¼ AE2 transitions. Accurate excited state rotational and distortion constants

After rapid cooling in a supersonic jet expansion, the populations of the lowest rotational levels of methanol have been determined from the intensities of IR absorption transitions of the \(\mathrm{C}-\mathrm{O}\) stretching band at \(10 \mu \mathrm{m}\). A newly constructed multireflection system