High-resolution analysis of the ν3 and ν6 bands of CD3Cl

The infrared spectra of isotopically pure CD 2 35 Cl 2 have been recorded at a resolution of 0.0026 cm -1 (FWHM) in the range 600-1160 cm -1 with a Bruker IFS 120 HR Fourier transform interferometer. The absorption between 670 and 750 cm -1 is due to three fundamentals, ν 3 (weak), ν 7 (very weak),

A high-resolution FT infrared spectrum of H 3 SiF (resolution 0.0024 cm Ϫ1 ) in the region 620 -1130 cm Ϫ1 was measured and used to analyze the fundamental bands 2 ( A 1 ), 990.851 cm Ϫ1 ; 3 ( A 1 ), 875.011 cm Ϫ1 ; 5 (E), 962.213 cm Ϫ1 ; and 6 (E), 729.528 cm Ϫ1 . A total number of 7241 transition

The vibration-rotation spectrum of methyl isocyanide \(\left(\mathrm{CH}_{3} \mathrm{NC}\right)\) has been recorded with the aid of a high-resolution Fourier transform spectrometer in the region \(1370151560 \mathrm{~cm}^{-1}\) containing the perpendicular band of the fundamental vibration \(v_{6}\)

High-resolution ( approximately 3 x 10(-3) cm-1) FTIR spectra of the planar SCF2 molecule have been recorded in the range of the four lowest-lying fundamentals nu2 (789.535 cm-1), nu3 (526.697 cm-1), nu5 (419.546 cm-1), and nu6 (623.187 cm-1). For each band 4500-7500 transitions have been assigned a

The ν 6 , ν 17 , and ν 21 fundamental bands of dimethyl ether have been assigned and rotationally analyzed. The spectra used were recorded at 0.005 cm -1 spectral resolution with a Fourier-transform spectrometer coupled to a supersonic molecular beam leading to a rotational temperature of about 70 K

Using a Fourier transform spectrum of ozone recorded in the 2.1 mm region at a resolution of 0.008 cm 01 , it has been possible to perform the first high resolution analysis of the 3n 1 / n 2 / n 3 and 5n 3 bands of 16 O 3 . These results, together with those derived from the analysis of the n 1 / 4