Stretch-Bend Levels of Acetylene: Analysis of the Hot Bands in the 3300 cm−1 Region

The hot bands originating from the low-lying \(\nu_{4}\left(I_{g}\right)\) state to the \(\nu_{3}\left(\Sigma_{u}^{+}\right)\)fundamental and ( \(\nu_{2}\) \(\left.+v_{4}+v_{5}\right)^{2,0 \pm}\left(\Sigma_{u}^{+}, \Sigma_{u}^{-}, \Delta_{u}^{e / /}\right)\) combination states of acetylene have been

Hot bands nu1 + 3nu2 - nu2 and 3nu2 + nu3 - nu2 of 16O3 in the region 2300-2600 cm-1 and the cold band 3nu2 + nu3 in the region 3050-3110 cm-1, corresponding to the v2 = 3 dyad {(130), (031)}, have been observed for the first time, using the Fourier Transform Spectrometer (FTS) at Reims and the usua

The hot band structure of the high-resolution Fourier transform spectra of monoiodoacetylene measured in the region of the bending fundamental n 1 4 (600-655 cm 01 ) with a resolution of 0.0020 cm 01 has been studied in detail. In addition, three spectra n 4 / n 5 0 n 4 (180-320 cm 01 ), 2n 0 4 (122

The 2900-3400 cm -1 spectral range is revisited for an accurate determination of line positions and line intensities of the 3ν 3 , ν 1 + 2ν 3 , 2ν 1 + ν 3 , and 3ν 1 bands of ozone. The fit on 4520 rotational energy levels of ( 012), ( 111), ( 210), ( 130), ( 003), ( 102), (201), and (300) vibration

Fourier transform emission spectra were recorded using a mixture of H 2 O and D 2 O at a temperature of 1500 • C. The spectra were recorded in three overlapping sections and cover the wavenumber range 380-2190 cm -1 . A total of 22 106 lines were measured, of which 60% are thought to belong to HDO.

The infrared spectrum of 28 SiH 4 between 2930 and 3300 cm Ϫ1 was recorded using the Laboratoire de Physique Mole ´culaire et Applications (LPMA.) Fourier transform spectrometer. The instrumental response function width chosen makes it possible to obtain a Doppler-limited spectrum. The observed spec