Angle-resolved photoelectron spectroscopy of the DABCO molecule probed with VUV radiation

Abstract

We report a study of the diazabicyclo[2.2.2]octane (DABCO) molecule photoionized using VUV synchrotron radiation in combination with an ion--electron coincidence spectrometer. We determine accurately the adiabatic ionization energy to 7.1990.006~eV. Two vibrational progressions of DABCO cation ground state are resolved at 847~cm-127~cm-1 and 1257~cm-167~cm-1, which we assign to modes of e' symmetry. Analysis of the photoelectron angular distribution shows that the anisotropy parameter depends on the vibrational excitation. This dependence of the β parameter with the vibrational excitation is attributed to the scattering of the outgoing wavefunction mediated by high-lying Rydberg states.