Determination of A0 for CH3D from the ν4 Raman band

We have determined the spectroscopic parameters that are necessary to describe accurately the R(0) line profile of the CH 4 2ν 3 band from about 1 Torr to a few hundred Torr of pure CH 4 . The intensities determined at each pressure are in overall agreement to better than 0.7%. The R(3) manifold of

The lowest frequency parallel fundamental band ν 3 of ethane is Raman active. A stimulated Raman spectrum of the Q branch for this band at a resolution of 0.0055 cm -1 has been measured by D. Bermejo et al. (1992, J. Chem. Phys. 97, 7055). The torsion-rotation series in this band with σ = 3, where σ

The Fourier transform spectrum of the vibration-rotational bands \(v_{2}\) and \(v_{5}\) of gaseous fluoromethane \({ }^{13} \mathrm{CH}_{3} \mathrm{~F}\) was measured at an unapodized resolution \(0.0041 \mathrm{~cm}^{-1}\). Among the assigned lines, 102 belonged to the \(\Delta k= \pm 2\) perturba

We present an analysis of the A0 + (6 3 P 1 ) → X 0 + (6 1 S 0 ) bound-bound and bound-free fluorescence spectrums and of the A0 + (6 3 P 1 ) ← X 0 + (6 1 S 0 ) and B1(6 3 P 1 ) ← X 0 + (6 1 S 0 ) bound-bound excitation spectrum of the HgKr van der Waals molecule. The A → X fluorescence spectrum, wh