Line Broadening and Shifting Studies of the J=5←4 Transition of Carbon Monoxide Perturbed by CO, N2, and O2

Using a difference frequency spectrometer we have measured the widths, shifts and line mixing parameters of many lines in the fundamental band of CO perturbed by N 2 at approximately 50 kPa and 301 K. The spectral resolution was 6 1 10 05 cm 01 and the typical signal to noise ratio exceeded 2000. Th

A high-resolution three-channel diode-laser spectrometer was used to record a large number of spectra with 14 N 16 O 2 and foreign gas pressures ranging from 0.1 to 0.4 and 20 to 150 Torr, respectively, at room temperature. The 6.2-m region corresponding to the 3 band of NO 2 was analyzed and the br

N 2 -and O 2 -broadened linewidths of the J ϭ 34 2,32 4 34 1,33 transition of ozone located at 500.4 GHz have been measured at three temperatures in the 247-295 K range by using a video-type spectrometer. Besides the Voigt profile commonly used as theoretical model for millimeter-wave investigations

Measurements of pressure-broadening and cross-relaxation rates of rotation-inversion transitions in the n 4 band (1470-1600 cm 01 ) of NH 3 perturbed by CO 2 are reported. Pressure-broadening parameters were measured at a low pressure of CO 2 (0-180 Torr). At high pressure, the two lines of the doub

High-resolution stimulated Raman spectroscopy was applied to the study of collisional broadening and shifting for rovibrational anisotropic Raman lines of the Fermi dyad of molecular carbon dioxide. The O( J) lines of the m 1 band and the S( J) lines of the band were recorded at 295 K. The pressure-