Fumanal, Maria Plasser, Felix Mai, Sebastian Daniel, Chantal Gindensperger, Etienne Interstate vibronic coupling constants between electronic excited states for complex molecules In the construction of diabatic vibronic Hamiltonians for quantum dynamics in the excited-state manifold of molecules, the coupling constants are often extracted solely from information on the excited-state energies. Here, a new protocol is applied to get access to the interstate vibronic coupling constants at the time-dependent density functional theory level through the overlap integrals between excited-state adiabatic auxiliary wavefunctions. We discuss the advantages of such method and its potential for future applications to address complex systems, in particular, those where multiple electronic states are energetically closely lying and interact. We apply the protocol to the study of prototype rhenium carbonyl complexes [Re(CO)3(N,N)(L)]n+ for which non-adiabatic quantum dynamics within the linear vibronic coupling model and including spin-orbit coupling have been reported recently. untagged;Chemical Sciences not elsewhere classified 2018-04-04
    https://repository.lboro.ac.uk/articles/journal_contribution/Interstate_vibronic_coupling_constants_between_electronic_excited_states_for_complex_molecules/9394403