High-resolution incoherent Fourier transform Raman spectrum of the fundamental band of 14N2

The Fourier transform Raman spectra of the fundamental bands of 14 N 15 N and 15 N 2 were measured with a resolution of 0.02 cm -1 . Lines from all branches (O, Q, S) were observed and measured. The analyses of the wavenumbers yield improved values for the band origins n 0 . 14 N 15 N/ = 2291.33773.

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

A high-resolution vibration-rotation overtone spectrum of H 13 C 12 CH has been recorded with a Fourier transform infrared spectrometer in the wavenumber region 6400 to 6700 cm -1 . The main band, assigned as the C-H stretching combination band ν 1 + ν 3 , and some overtone and hot bands have been r

Rotational analyses of the B 2 ⌺ u ϩ 3 X 2 ⌺ g ϩ system of the 14 N 2 ϩ molecule have been extended to include the vibrational levels up to vЈ ϭ 4. Spectral data from 20 bands obtained from high-resolution Fourier transform spectrometry of a hollow-cathode and a Pointolite lamp were included in the