The 1992 Evaluation of Mass-Independent Dunham Parameters for the Ground State of CO

New mass-independent Dunham parameters for the \(X^{1} \Sigma^{+}\)ground state of the CO molecule have been deduced from a complete set of existing frequency measurements dealing with the isotopic species of CO. This work improves the results of the 1992 evaluation (J. Mol. Spectrosc. 160, 590-592,

The infrared spectra of the monodeuteride of aluminium has been measured in the gas phase in its ground electronic state (~) using a diode laser spectrometer. These experimental results were combined with those available for AIH from infrared Fourier transform spectra of the v= 2--,0 sequence bands

By means of a purely quantum mechanical method, we construct an accurate potential energy function for the \(X^{\prime} \Sigma^{+}\)ground electronic state of \(\mathrm{CO}\) from a large set of experimental frequency data for vibration-rotational bands of several isotopic species. We use an analyti

The potential energy surface for the electronic ground state of CO 2 is refined by means of a two-step variational procedure using the exact rovibrational Hamiltonian in the bond length-bond angle coordinates. In the refinement, the observed rovibrational energy levels for J = 0-4 below 16,000 cm -1