Journal of Chemical Physics, Vol.106, No.8, 3186-3204, 1997
Ab-Initio Study of the Photodissociation of Hco in the First Absorption-Band - 3-Dimensional Wave-Packet Calculations Including the (X)over-Tilde(2)A’-(A)over-Tilde(2)A" Renner-Teller Coupling
We present a comprehensive investigation of the Renner-Teller induced dissociation of following excitation in the first absorption band <((A)over tilde (2)A "<--(X)over tilde (2)A’)>. The dynamics calculations are performed in the time-dependent picture by propagating two coupled wave packets including all three internal degrees of freedom. The corresponding potential energy surfaces have been generated from new electronic structure calculations, The quantities of interest are (i) the vibronic excitation energies in the <(A)over tilde (2)A "> state, (ii) the state-and K-dependent lifetimes of the rovibronic states in the excited manifold, and (iii) the final vibrational-rotational state distributions of the fragment CO molecule. In all cases very satisfactory agreement with recent experimental results obtained from photofragment yield spectroscopy is achieved.
Keywords:LASER-INDUCED FLUORESCENCE;PRODUCT STATE DISTRIBUTIONS;POTENTIAL-ENERGY SURFACES;ORBITAL ANGULAR-MOMENTUM;TRIATOMIC-MOLECULES;UNIMOLECULAR DISSOCIATION;WAVEPACKET CALCULATIONS;RESONANCE ENERGIES;VARIATIONAL METHOD;QUANTUM DYNAMICS