High-Resolution Fourier Transform Infrared Spectrum of the ν1+ν3 Band System of H13C12CH

The infrared spectrum of the 12 fundamental band of ethylene (C 2 H 4 ) has been measured with an unapodized resolution of 0.004 cm Ϫ1 in the frequency range of 1380 -1500 cm Ϫ1 using the Fourier transform technique. By assigning and fitting a total of 1387 infrared transitions using a Watson's A-re

The lowest fundamental band \(\nu_{13}\) of triacetylene \(\left(\mathrm{HC}_{6} \mathrm{H}\right)\) was measured in high resolution using a Fourier transform IR spectrometer in the range from 27 to \(227 \mathrm{~cm}^{-1}\). The resolution achieved was about \(0.0018 \mathrm{~cm}^{-1}\). The rotati

The Fourier transform spectra of \(\mathrm{CICN}\) have been recorded between 2860 to \(3030 \mathrm{~cm}^{-1}\) with a resolution of \(0.0026 \mathrm{~cm}^{-1}\). The \(\nu_{1}+\nu_{3}\) and \(2 \nu_{2}+\nu_{3}\) bands and the associated hot bands have been analyzed. A band-by-band analysis has bee

High-resolution spectrum of the HDS molecule was recorded with the Bruker Fourier spectrometer in Oulu in the regions of the n 1 and 2n 1 /n 2 / n 3 absorption bands. Fine rotational structure of the n 1 band was analyzed with the model of an isolated vibrational state, while in the analysis of the

High-resolution infrared spectra of the low-lying \(\nu_{3}, \nu_{4}\), and \(\nu_{5}\) fundamentals of the transient molecule DCOCl are reported. These type- \(A / B\) hybrid bands have been analyzed in detail, providing extensive rotational assignments for the \(\mathrm{DCO}^{35} \mathrm{Cl}\) and

The first high-resolution (0.002 cm 01 ) infrared spectra of the reactive molecule thionylimide, HNSO, are reported. The n 3 (NS stretching) and n 5 (NSO bending) fundamentals at 1086 and 448 cm 01 , respectively, have been analyzed in detail. The ground state rotational constants have been substant