Analysis of the Infrared Spectra of the Fundamentals ν3and ν6of12CD3I and13CD3I

The high resolution infrared spectra of 12 CD 3 I and 13 CD 3 I molecules have been measured in the region of the CD 3 deformation bands n 2 and n 5 using a Fourier transform spectrometer. The coupled band system n 2 , n 5 , and 2n 3 has been analyzed by taking into account the Coriolis resonances n

Submillimeter wave rotational spectra of the vibrational states n 2 (A 1 ), n 3 (A 1 ), n 5 (E), and n 6 (E) in 12 CD 3 F and 13 CD 3 F have been recorded and assigned. The new data with previously published high resolution infrared spectra have been used to determine the excited state rotational pa

The ν 5 fundamental (C-C stretching) of CH 3 CD 3 shows a resolved torsional structure, caused by perturbations due mainly to the linear dependence of the torsional potential barrier on the normal coordinate Q 5 . We were able to analyze this structure and to assign vibration-rotation transition wav

The 3 , 5 , and 6 fundamental bands of the 13 CH 3 D molecule have been studied with Fourier transform infrared spectroscopy. The spectra and results for the parent species 12 CH 3 D (O. N.

The rotational structure in three fundamental bands nu3, nu5, and nu6 of 13CHD3 has been analyzed. As this study evidently is the first high-resolution investigation on the spectrum of this molecule, the determination of the ground state rotational constants was the necessary first step. The nu5 ban