Line Parameters for Ozone Hot Bands in the 3.3-μm Spectral Region

The infrared spectrum of ethane in the region of the CH-stretching fundamental vibrations, between 2600 and 3300 cm Ϫ1 , was recorded with a Bruker IFS120HR Fourier transform spectrometer. Jet-cooled and room-temperature conditions were used at 0.01 and 0.005 cm Ϫ1 instrumental resolution, respectiv

A report of the detection of the C-H hydrocarbon band complex at 3.4 µm in an asteroid spectrum, by D. P. Cruikshank and R. H. Brown (1987, Science 238, 183-184) is not confirmed by recent data of higher quality. Spectra of the same asteroid and six other low-albedo asteroids do not show this featur

branches of the 5 perpendicular band. These lines with J values ranging from 1 to 23 and K from 0 to 9 (K Յ J) are located in the spectral range 1416 -1573 cm Ϫ1 . The collisional halfwidths are obtained by modeling each spectral line with a Voigt and a Rautian profile. The noncorrelated Rautian mod

Fourier transform spectra have been obtained at 296 K at a resolution of 0.002 or 0.004 cm -1 depending on the pressure range. Line positions and intensities of CH 3 79 Br and CH 3 81 Br belonging to the fundamental band ν 6 were measured and analyzed between 890 and 1080 cm -1 . A total of 2896 (28

Infrared absolute line intensities of the nu6 band of CH3F have been measured around 8.5 μm using a diode-laser spectrometer. These line strengths were obtained by the equivalent width method and, for 13 lines, by fitting a Rautian profile to the measured shape of the lines. From these results, we h