Nitrogen Broadening of Absorption Lines in the ν1, ν2, and ν3Bands of H2S Determined by Applying an IR Diode Laser Spectrometer

The collisional line broadening of H 2 S transitions in the n 1 and n 3 bands was measured with H 2 S itself and with air as perturbers by applying a diode laser spectrometer in pulsed mode. Altogether 17 lines from the R-branch of the n 1 band (3 £ J Љ £ 17, 0 £ K Љ a £ 6) and 5 lines from the R-br

The self-broadening coefficients for 118 lines in the n 1 / n 3 band of 32 SO 2 , 5 lines in the n 1 / n 3 band of 34 SO 2 , 10 lines in the n 1 / n 2 / n 3 0 n 2 band of 32 SO 2 , and 13 lines in the 2n 2 band of H 2 S were measured in the spectral region between 2464 and 2503 cm 01 by applying a t

Collision effects on water vapor line profiles perturbed by nitrogen at room temperature have been studied by Fourier transform and tunable diode laser spectroscopy. Narrowing effect due to molecular confinement (Dicke effect) has been observed for P and Q branch lines of the ν 2 band of H 2 O with

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

In this paper we investigate the mid-infrared spectrum of the H 2 16 O molecule between 3367 and 3447 cm -1 to study the gas-collision-broadened linewidths. The coherent radiation used in this experiment is produced through difference frequency generation in a periodically poled lithium niobate crys

FIG. 6. Plot of integrated absorption from 965.4774 to 965.6633 cm -1 versus hydrazine column density (number density times path length). The slope is the integrated line strength for this spectral region.