High resolution infrared spectrum of the CD2 wagging band of methanol-D2 (CHD2OH) for the lowest lying torsional vibrational state (e0)

This paper reports the analysis of the high resolution (0.0019 cm^?1) Fourier transform infrared (FTIR) spectrum for asymmetrically deuterated methanol CHD₂OH (methanol-D₂) at a low temperature for the CD₂ wagging band for the lowest lying trans-species (e₀). In spite of the complexity and perturbation in the spectra, assignments were possible for the CD₂ wagging band for a maximum K value of 10. In total, about 500 spectral lines have been assigned. Analysis of the spectral lines has been performed in terms of state dependent molecular parameters, Q-branch origins and asymmetry splitting. Assignments have been thoroughly confirmed using combination relations (see text). The catalogue of the assigned transition wavenumbers will help identification and prediction of far infrared (FIR) optically pumped CO₂ lasers. The absorption lines close to the several 10R and 10P CO₂ laser lines have also been identified. These should help experimentalists to optimize the power of the emission FIR laser lines and to predict new lines and should prove valuable as a laboratory support for interstellar detection in “Radio Astronomy”. To our knowledge this is the first time such vibrational infrared (IR) high resolution study in CHD₂OH is being performed.