Laser infrared spectroscopy of vinyl fluoride in the 1280–1400 cm −1 region

The vibration-rotation spectra of both \({ }^{35} \mathrm{Cl}\) and \({ }^{37} \mathrm{Cl}\) isotopomers of \(\mathrm{HOCl}\) have been recorded in selected regions between 3900 and \(10500 \mathrm{~cm}^{-1}\). More than 6000 transitions were assigned to the following overtone and combination bands:

This work implements a recently developed approach based on collisional energy transfer at high vibrational excitation to resolve new spectroscopic features of \(\mathrm{HCN}\) in the ground electronic state near \(6000 \mathrm{~cm}^{-1}\) vibrational energy and in the first excited electronic state

This work continues a series of papers devoted to the analysis of the vibration-rotation energy structure of OCS with a global effective model. A spectrum of natural carbonyl sulfide in the near infrared region was recorded at room temperature with a gas pressure of 120 hPa. A laser photoacoustic sp

A spectrum of natural OCS has been recorded in the near-infrared region using the laser photoacoustic technique. The source is a titanium-sapphire laser pumped by an Ar ϩ laser. The tunable 1.5 W beam was sent through the photoacoustic cell. This windowless longitudinal resonant cell was designed wi