The ν2 band of HOBr

The \(\nu_{1}\) band of \(\mathrm{HOBr}\) centered at \(3614.903 \mathrm{~cm}^{-1}\) has been observed at \(0.006 \mathrm{~cm}^{-1}\) resolution. The band is a hybrid type with \(\left|\left(\partial \mu_{b} / \partial Q_{1}\right) /\left(\partial \mu_{a} / \partial Q_{1}\right)\right| \approx 0.84\

The \(\nu_{2}+\nu_{3}-\nu_{2}\) hot band of \(\mathrm{NH}_{3}^{+}\left(\dot{X}^{2} A_{2}^{\prime \prime}\right)\) has been observed on the absorption spectrum recorded by using a difference frequency laser spectrometer combined with the velocity modulation technique in the region between 3500 and \(

High-resolution infrared spectra of the strong a-type absorptions corresponding to the n 1 (n 0 Ç 1310.75 cm 01 ) and n 2 (n 0 Å 821.9387 cm 01 ) bands of FNO 2 have been analyzed. The n 1 line positions exhibited extensive perturbations as a result of three nearly degenerate vibrational states-n 1

The 2nu1 + nu2 + 2nu3 band of ozone, occurring in the 4780 cm-1 region, has been observed for the first time, using a Fourier transform spectrometer, at 0.008 cm-1 resolution and using a large path length pressure product. Assignments of vibration-rotational transitions have been made up to J = 48 a