Pressure Shifts and Pressure Broadening of the B and γ Bands of Oxygen

The goal of this paper is to discuss a method which allows an accurate determination of the linewidths and the lineshifts from FT spectra recorded at room temperature, by fitting composite profiles and taking into account the phase errors. The results of the measurements of the pressure effects on s

Pressure-induced line broadening and line shift of four rovibrational transitions in the n 2 band of NH 3 and of two unassigned transitions at 10 mm were measured, using the wavelength-stabilized Cologne diode laser spectrometer with an improved recording system. Self-effects and foreign gas effects

Pressure-induced line broadening and line shift of three rovibrational transitions in the n 2 band and three in the 2n 2 0 n 2 hot band of H 2 O at 7 mm were remeasured, using the wavelength-stabilized Cologne diode laser spectrometer with an upgraded recording system: the determination of the absol

The (22 0 1-00 0 0) combination band of CO 2 around 6348 cm Ϫ1 is studied with diode-laser spectroscopy, and linestrengths, collision-broadening parameters, and pressure shifts are determined. Linestrengths are modeled with a third-order Herman-Wallis expansion, and discrepancies with values reporte

The pressure broadening of the 16 O 16 O rotational line (N , J ) = (3, 2)-(1, 2) at 425 GHz by oxygen and nitrogen perturbers at room temperatures have been reported. A spectrometer with BWO and acoustic detector was employed with a double magnetically shielded cell. The signal-to-noise ratio on th

Pressure broadening of rotational transitions in the nitric oxide fundamental band was studied using Fourier transform spectroscopy. Rotational level dependent broadening coefficients were determined for both the 2 1/2 and 2 3/2 substates at 300 K using the five noble gases as the broadening species