CH3I: Isotope shift for 129I in the v6 band

The infrared spectrum of the lowest fundamental band \(\nu_{3}\) of \({ }^{13} \mathrm{CH}_{3} \mathrm{I}\) has been studied in the region \(470-550 \mathrm{~cm}^{-1}\) at a resolution of \(0.0027 \mathrm{~cm}^{-1}\). In this parallel band more than 1500 transitions have been assigned for subbands \

The infrared spectra of 13 CH 3 I and 12 CH 3 I in the region of the bands n 2 , n 5 , and n 3 / n 6 , 1200-1600 cm 01 , have been studied at an effective resolution better than 0.0025 cm 01 . The excited states of these bands form a complicated level system with a number of resonances coupling the

We studied the hyperfine components of the ( J ϭ 10-9, Kl ϭ 9) rotational transition in the v 6 ϭ 1 excited vibrational state of CH 3 I, using collinear infrared and mm-wave radiations. The Doppler-free double-resonance technique allowed an accurate determination of the collisional broadening parame

A high-resolution absorption spectrum of the perpendicular fundamental \(v_{6}\) of \({ }^{12} \mathrm{CH}_{3} \mathrm{I}\) was recorded. The band was analyzed essentially as an unperturbed perpendicular band, although a small Coriolis interaction with \(2 v_{3}\) was taken into account. A least-squ