Vibrational structure and vibronic coupling in the carbon 1s photoelectronspectra of ethane and deuteroethane

The carbon Is photoelectron spectrum of ethane, C2H6, has been measured at a photon energy of 329 eV and an instrumental resolution of 70 meV. The spe ctrum shows a rich vibrational structure which is resolved using least-squa res fits to the data. Only C-H stretching and CCH bending modes contribute significantly to the spectrum. The lack of excitation of the C-C stretching mode is explained in terms of changes in hybridization at the spectator ca rbon. To investigate the possibility of incomplete localization of the core hole, the spectra Of C2H6 and CA were measured at higher experimental reso lution (35 meV). The spectra are accurately fit by a model based on ab init io calculations of the vibrational energies and the geometry changes follow ing ionization, and including vibronic coupling of the two degenerate, loca lized hole states. A small splitting on the order of 10-20 meV is found for the (2)A(2u) and (2)A(1g) core-ionized states.