Abstract

An experimental database for the 13C 16O 2, 16O 13C 18O, 16O 13C 17O, 13C 18O 2 and 17O 13C 18O isotopologues of carbon dioxide has been constructed on the basis of the high-sensitivity absorption spectrum of carbon dioxide with 99% enrichment in 13C recorded by CW-cavity ring down spectroscopy (CW-CRDS) between 5851 and 7045 cm −1. As a result of the achieved sensitivity (typical noise equivalent absorption α min ∼2–5×10 −10 cm −1) combined with the high linearity and dynamics (more than four decades) of the CW-CRDS technique, the amount of spectroscopic information contained in these spectra was considerable. A total of 8639 transitions of the 13C 16O 2, 16O 13C 18O, 16O 13C 17O, 13C 18O 2 and 17O 13C 18O isotopologues with line strength as low as 5×10 −29 cm/molecule were assigned. They belong to a total of 150 bands, while less than 20 bands were previously reported by Fourier transform spectroscopy. The excellent agreement between the predictions of the effective operators model and the observations has allowed using an automatic search program to assign the weaker lines observed in the congested spectrum. The spectroscopic parameters of the vibrational upper levels were obtained from a fit of the measured line positions. A number of resonance interactions were observed; in particular, several occurrences of interpolyad anharmonic couplings not included in the polyad model of effective Hamiltonian, were found to affect a few bands of the 16O 13C 18O and 16O 13C 17O isotopologues. In the list of 8639 transitions, which are provided as Supplementary material, line positions are experimental values (typical uncertainty in the order of 1×10 −3 cm −1), while line strengths were calculated at 296 K by using the effective operators approach (typical uncertainty in the order of 5%). In the case of the 13C 16O 2 isotopologue, the reported transitions represent 99.65% of the total absorbance in the region considered.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.