A synchrotron-based vacuum ultraviolet (VUV) absorption spectrum of norbornadiene (NBD) is reported, and the extensive vibrational structure obtained has been analyzed. The previously known 5b3s-Rydberg state has been reinterpreted by comparison with our recent high-resolution photoelectron spectral analysis of the XB ionic state. Additional vibrational details in the region of this Rydberg state are observed in its VUV spectrum when compared with the photoelectron B ionic state; this is attributed to the underlying valence state structure in the VUV. Valence and Rydberg state energies have been obtained by configuration interaction and time-dependent density functional theoretical methods. Several low-lying singlet valence states, especially those that arise from ππ* excitations, conventionally termed NV to NV, have been examined in detail. Their Franck-Condon (FC) and Herzberg-Teller (HT) profiles have been investigated and fitted to the VUV spectrum. Estimates of the experimental 0 band positions have been made from these fits. The anomaly of the observed UV absorption by the A state of NBD is attributed to HT effects. Generally, the HT components are less than 10% of the FC terms. The calculated 5b3s lowest Rydberg state also shows a low level of HT components. The observed electron impact spectra of NBD have been analyzed in detail in terms of triplet states.

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http://dx.doi.org/10.1063/5.0053962DOI Listing

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