Temperature Variations of the Interaction Induced Absorption of CO2 in the ν1, 2ν2 Region: FTIR Measurements and Dimer Contribution

Collision-induced absorption (CIA) by CO2 is measured in the 1100-1600 cm-1 range using a Fourier-transform spectrometer with a resolution of 0.5 cm-1. The current measurements, which agree well with previous ones but are more precise, reveal pronounced structures on top of both unresolved Fermi dou

This paper aims at examination of the (CO 2 ) 2 spectral absorption profile retrieved from the room temperature CO 2 collisioninduced absorption (CIA) spectrum in the region of the ν 1 , 2ν 2 Fermi doublet. The assignment of (CO 2 ) 2 vibrations is discussed, paying due attention to high-resolution

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

FT infrared spectra of BrCN have been recorded in the region of the 2 band near 340 cm Ϫ1 , the 1 band near 580 cm Ϫ1 , and the 2 2 band near 690 cm Ϫ1 with a resolution between 2.9 and 4.7 ϫ 10 Ϫ3 cm Ϫ1 . The vibrational levels (01 1 0), (10 0 0), (02 0 0), (02 2 0), (11 1 0), and (20 0 0) have bee

High-resolution measurements of the (n 1 / n 2 ) Q branch of pure CO 2 were made using a difference frequency spectrometer with resolution of 5 1 10 05 cm 01 and a signal-to-noise ratio of 2000:1. Lines Q(2) through Q(32) were measured with up to 14 lines in a single spectrum. The analysis of the br

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