Line mixing effects in the 1 ← 0 and 2 ← 0 CO bands perturbed by CO and N2 from low to high densities

The pressure-induced shifting coefficients for self-, He-, Kr-, O 2 -, and N 2 -broadened lines of CO in the first overtone band have been measured using a tunable difference-frequency laser spectrometer. The lineshift was directly obtained from the simultaneous record of the pressure-broadened line

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 pressure-induced shifting coefficients for He-, Ne-, Ar-, Xe-, N 2 -, and O 2 -broadened lines of CO in the fundamental band have been measured by using a Fourier transform spectrometer. The lineshifts have been determined from the wavenumber differences between the lines of pure CO at low press

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

The pressure broadenings and shifts of rovibrational transitions of the \(\mathrm{CO}\) fundamental band with foreign gases, Argon and Nitrogen, were measured by a tunable diode laser spectrometer. High \(J(\leqslant 34) R\)-branch and low \(J R\) - and \(P\)-branch transitions have been recorded wi

Line-mixing effects have been studied in two Q branches of the absorption spectra of CO 2 , in mixtures with nitrogen, oxygen, and argon. The corresponding transitions are (20 0 0) I R 01 1 0 and (12 2 0) I R 01 1 0, centered near 2130 cm 01 and 2093 cm 01 , respectively. Line-mixing effects have al