Measurements of 12C16O2 line parameters in the 8790-8860, 9340-9650 and 11,430-11,505 cm−1 wavenumber regions by means of Fourier transform spectroscopy

•Line intensities of eight CO2 bands in the 1.13, 1.06 and 0.87 µm regions are measured.•Disagreement between measured line intensities and those from the databases is found.•Global modeling of the line intensities in the studied regions is performed.

Absorption spectra of carbon dioxide, 12C16O2, have been studied in the three wavenumber ranges (8790-8860, 9340-9650 and 11,430-11,505 cm−1) of the near infrared region using spectrophotometric complex of V.E. Zuev Institute of Atmospheric Optics based on an Bruker IFS 125 HR and a 30 m multipass cell with the White type optical system. The spectra were recorded at spectral resolution of 0.015 cm−1, path length of 613.82 m and at pressure range from 209 to 400 mbar. The multispectrum fittings with the Voigt profile were performed to retrieve the line positions and intensities of eight bands 5001r−00001 (r=3, 4), 2003r−00001 (r=1,2,3) 2113r−01101 (r=1,2) and 00051−00001. The uncertainty of the line position determination is estimated to be about 0.001 cm−1. The absolute accuracy of the line intensity measurement is 5% for 5001r−00001 (r=3,4) bands, 3% for 2003r−00001 (r=1,2,3) bands, 10% for 00051−00001 band and 15% for 2113r−01101 (r=1,2) bands. The measured line intensities were used to fit the effective dipole moment parameters of 12C16O2. The fitted parameters reproduce the measured line intensities within their experimental uncertainties. A comparison of measured positions and intensities with those contained in HITRAN, CDSD, AMES-296, and High-T databases is presented and discussed.