Diode Laser Spectroscopy of H232S Around 0.82 μm

Using a stabilized diode-laser spectrometer, we have studied the line profiles of water vapor near 7185.59 cm -1 . With low pressures of pure gas (≤1 Torr) in a White-type cell, we have deduced the line intensities using the Voigt profile. This study shows clear differences between experimental and

High-resolution diode laser spectroscopy was applied to measure absolute line intensities in the 9.8-mm n 14 band of benzene 12 C 6 H 6 . A new data treatment had to be developed to derive single line parameters from the strongly overlapped lines. This procedure includes a self-deconvolution and an

High-resolution spectra of acetylene have been measured in the region between 11640 and \(11850 \mathrm{~cm}^{-1}\) with a GaAs diode laser spectrometer. About 340 spectral lines assigned to the transitions in five bands \(\left(2 v_{1}+\nu_{2}+v_{3}\right.\) of \({ }^{12} \mathrm{C}_{2} \mathrm{H}_

A diode laser spectrometer has been used for high accuracy \(\mathrm{H}_{2} \mathrm{O}\) line profile measurements near \(5475 \mathrm{~cm}^{-1}\). Measured lineshapes have been least-squares fitted by Voigt profile with a floating Gaussian component. Gaussian component pressure dependence resulting

Spectrally resolved measurements of water vapor absorption spectra near \(1.4 \mu \mathrm{m}\) have been performed with a tunable, distributed-feedback InGaAsP diode laser. A lineshape analysis was used to infer the collision-broadening coefficient of 11 rovibrational transitions in the \(\nu_{1}+\n