VUV-synchrotron absorption studies of N2 and CO at 900 K

Abstract

Photoabsorption spectra of N2 and CO were recorded at 900K, using the vacuum-ultraviolet Fourier-transform spectrometer at the DESIRS beamline of synchrotron SOLEIL. These high-temperature and high-resolution measurements allow for precise determination of line wavelengths, oscillator strengths, and predissociative line broadening of highly-excited rotational states with J up to about 50, and also vibrational hot bands. In CO, the perturbation of A\,1-X\,1+ vibrational bands (0,0) and (1,0) were studied, as well as the transitions to perturbing optically-forbidden states e\,3-, d\,3, D\,1 and a'\,3+. In N2, we observed line shifts and broadening in several b\,1u-X\,1+g bands due to unobserved forbidden states of 3u symmetry. The observed state interactions are deperturbed and, for N2, used to validate a coupled-channels model of the interacting electronic states. This data is appropriate for use in astrophysical or (exo-)planetary atmospheric applications where high temperatures are important and in future spectroscopic models of these molecules.