The observation of resonance in the electron impact excitation intensities of the inner-shell states of CO2

Inner-shell singlet-triplet transitions in CO1 and NzO have been observed by the electron energy-loss technique at low values of the incident electron energy, typically 1.4 times the excitation energies of the states. The same technique has been used to observe fine structure in transitions near the

The electron-impact excltahon of water ha been remves~.~gated over the energy range 9-180 eV Energy-dependent pressure effects have been observed It IS suggested that these are due to production of one or more mplet states of water which udergo coU~s~onally ass~s~cd prtissoclatlon Threshold energxs

High-accuracy electronic structure calculations for the energies of CO2 in the lowest states in each of 'Zi, 'I&, 'AU and 5; symmetries, as a function of the symmetric stretching coordinate, are reported. The relative positions of the electronically excited states have been determined to an expected

Inner-shell excited states of carbon dioxide have been studied in a high-resolution electron impact experiment. The excited states (Is) -~(2p~r,) ~'317 u have been observed as a function of impact energy via their decay, by ejection of an electron, to an ionic state of the molecule. A shift in the e