Line Broadening and the Temperature Exponent of the Fundamental Band in CO–N2 Mixtures

We present accurate broadening coefficients for many lines of the fundamental band of CO highly diluted in He and Ar at 301.5 K. It is shown that a soft collision model gives a reasonable fit to the data at pressures up to 1 atm. A distinction is drawn between the accuracy with which fitting paramet

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

The R(0) line profile of the 13 CO fundamental band is studied at low concentration in helium from room temperature (296.7 K) to 40 K. A narrowing effect due to molecular confinement (Dicke effect) is observed and analyzed using the Galatry soft collision model. The narrowing parameter is found to b

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

\(\mathrm{N}_{2}\)-broadening coefficients have been measured for 28 lines of \(\mathrm{HCN}\) at \(203 \mathrm{~K}\) in the \(P, Q\). and \(R\) branches of the \(\nu_{2}\) band, using a tunable diode-laser spectrometer. Semiclassical calculations of these collisional broadenings have been performed