High-resolution excited-state photoelectron spectroscopy of the lower Rydberg manifold of jet-cooled C2H4 and C2D4

High-resolution (2+1) resonance-enhanced excited-state photoelectron spectroscopy on supersonic jet expansions of pure C2H4 and C2D4 has been employed to investigate the spectroscopy and dynamics of the lowest excited 11B3u(π,3s) Rydberg state, as well as the 11B1g(π,3py), 11B2g(π,3pz), and 21Ag(π,3px) Rydberg states of ethylene. In combination with ab initio calculations, this approach has for the 11B3u(π,3s) Rydberg state confirmed the majority of previous assignments in the two-photon excitation spectrum but, at the same time, has demonstrated that the hypothesis of a vibronic coupling between this state and the Jahn−Teller distorted 11B2g(π*,3s) state should be discarded. The resonances on which this hypothesis was based are in the present study shown to arise from excitation of the ν3(ag) vibrational mode. For the 3p Rydberg manifold, the present study has for the first time been able to determine unambiguously the 0−0 transitions to all three (π,3p) Rydberg states and to disentangle the vibrational ...