Diode laser spectroscopy of H2O and CO2in the 1.877-μm region for the in situ monitoring of the Martian atmosphere

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

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

Spectrally resolved measurements of pure water vapor absorption spectra have been performed with a tunable diode laser. The laser, a distributed feedback InGaAsP diode, emits in the 1.4- \(\mathrm{m}\) region. A total of 12 lines were studied corresponding to rovibrational transitions within the \(\

The two mid-infrared bands of the CF2&dbondCHF molecule, nu5 centered at 1172.673 cm-1 and nu6 + nu9 at 1155.105 cm-1, were measured on a tunable diode laser spectrometer with a resolution near the Doppler limit. These vibrations of A' species give rise to a/b hybrid bands, even though our analysis