High-Resolution Study of the nν2, n = 1, 2, 3, Vib–Rotational Bands of D2Se

Using high-resolution Fourier transform spectra of monoisotopic \(\mathrm{H}_{2}{ }^{80} \mathrm{Se}\) recorded in the 1.8 and \(1.55-\mu \mathrm{m}\) regions. an extensive analysis of the \(2 \nu_{1}+\nu_{2}, \nu_{1}+\nu_{2}+\nu_{3}, 3 \nu_{1}, 2 \nu_{1}+\nu_{3}\), and \(\nu_{1}+\) \(2 v_{3}\) band

The high-resolution Fourier transform spectrum of the DO 35 Cl molecule was recorded and analyzed in the region of the two lowest D-O overtone bands, 2ν 1 and 3ν 1 . Because of the presence of strong resonance interactions, the influence of the (130) state on the (200) state, and also that of the (

The infrared spectra of the 2n 8 , n 2 / n 8 , and 2n 2 bands of methylene chloride have been recorded both for isotopically pure CH 35 2 Cl 2 and for a natural mixture with a resolution of 0.0044 cm 01 in the range 2450-2900 cm 01 using a Bruker IFS 120 HR Fourier transform interferometer. The 2n 8

For the first time the infrared spectrum of PHD 2 was recorded in the region of the PH stretching fundamental ν 1 at 2324.005 cm -1 and the overtone 2ν 1 at 4563.634 cm -1 with a resolution of 4.2 × 10 -3 cm -1 and 8.8 × 10 -3 cm -1 , respectively. In the analyses about 1340 and 1020 transitions wer