Infrared Absorption Spectroscopy of HNC in the Region 2.6 to 3.1 μm

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

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

Emission bands of the HfS radical in the region 4700-6900 cm 01 have been recorded with a resolution of 0.008 cm 01 using Fourier transform techniques. The rotational structure of the bands of the 180 H 32 S isotopomer has been analyzed and molecular parameters have been derived for the electronic s

The near-infrared absorption spectra of the FeC radical have been measured by diode laser spectroscopy in the regions from 11 810 to 13 200 cm -1 . Rotationally resolved 28 new vibronic bands of the 56 Fe 12 C major isotopic species were observed as well as two known bands. Five of them were assigne

The rotation-vibration spectrum of the weakly bound complex \(\mathrm{CO}-\mathrm{Kr}\) has been studied in the \(2140-\mathrm{cm}^{-1}\) region of the CO fundamental band using a long-path ( \(84 \mathrm{~m}\) ) low-temperature (84 K) static absorption cell and a high-resolution Fourier transform s

branches of the 5 perpendicular band. These lines with J values ranging from 1 to 23 and K from 0 to 9 (K Յ J) are located in the spectral range 1416 -1573 cm Ϫ1 . The collisional halfwidths are obtained by modeling each spectral line with a Voigt and a Rautian profile. The noncorrelated Rautian mod