Vibronic Couplings in the C 1s → nsσg Rydberg Excited States of CO2

Abstract

Fragment ion yields in the C 1s → Rydberg excitation region of CO2 were measured in the 90° and 0° directions relative to the electric vector of the linearly polarized light. The C 1s → ns (n = 3, 4), npπ and npσ (n = 3−7), and nd (n = 3, 4) Rydberg transitions are clearly observed and show some vibrational structures. The dipole-forbidden C 1s(σg) → 3sσg Rydberg transition is the strongest of all the Rydberg transitions, and the ion yield in the 90° direction is dominant. This indicates that the bending vibration is predominantly coupled with the 3sσg Rydberg state and the intensity-lending dipole-allowed state is a very strong π* resonance, only 2 eV lower than the 3sσg state. On the other hand, in the 4sσg Rydberg state the vibronic coupling through the antisymmetric stretching mode is strongly observed in the 0° direction. This is probably because the 4sσg state approaches another intensity-lending state with Σu+ symmetry and goes away from the π* resonance. The angle-resolved ion-yield technique is v...