Fourier transform and high sensitivity cw-cavity ringdown absorption spectroscopies of ozone in the 6030–6130 cm−1 region. First observation and analysis of the 3ν1+3ν3 and 2ν2+5ν3 bands

The 2600 -2900 cm Ϫ1 spectral range is revisited for an accurate determination of line intensities of the 2 1 ϩ 2 , 1 ϩ 2 ϩ 3 , and 2 ϩ 2 3 bands of ozone. The fit on 1702 energy levels of ( 012), (111), and (210) states determined from observed transitions with J max Յ 61 and K a max Յ 17 gives a r

The very weak bands nu1 + 2nu2 + 3nu3 and 4nu1 + nu3 of 16O3 have been observed for the first time, using the Fourier transform spectrometer (FTS) of Reims and the usual experimental setup providing a large product p x l of approximately 38 Torr x 36 m. The upper levels of these A-type bands which a

High-resolution spectrum of the HDS molecule was recorded with the Bruker Fourier spectrometer in Oulu in the regions of the n 1 and 2n 1 /n 2 / n 3 absorption bands. Fine rotational structure of the n 1 band was analyzed with the model of an isolated vibrational state, while in the analysis of the

The infrared spectrum of the PD 3 molecule has been measured in the region of the first stretching overtone bands on a Fourier transform spectrometer with a resolution of 0.0068 cm À1 and analyzed for the first time. More than 800 transitions with J max ¼ 15 have been assigned to the bands 2m 1 and

Using new high-resolution Fourier transform spectra recorded at the University of Denver in the 2-m region, a new and more extended analysis of the 2 1 ϩ 3 and 3 3 bands of nitrogen dioxide, located at 4179.9374 and 4754.2039 cm Ϫ1 , respectively, has been performed. The spin-rotation energy levels