Absolute OCS wavenumbers and analysis of bands in the region of the overtone 2ν2

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

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

Fourier transform, vibration-rotational spectra of NpF, measured at moderate to high resolution (0.1-0.008 cm-') reveal well-defined PQR structures for the two combination bands, v, + yg and Y\* + Y+ The resolved ground-state Q branch and rotational manifolds for each band provide accurate vibration

The saturation spectra of the 2n 2 and the 3n 2 -n 2 bands of carbonyl sulfide have been studied using a CO 2 laser sideband spectrometer. The frequency of 20 absorption lines has been determined with an accuracy of 20 kHz. These data have been included in a global rovibrational analysis including a