期刊
CHEMICAL PHYSICS
卷 329, 期 1-3, 页码 65-75出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.chemphys.2006.07.025
关键词
multi-mode dynamics; photoelectron spectrum; vibronic coupling; fluorobenzene; conical intersection
The multi-mode vibronic interactions between the five lowest electronic states of the fluorobenzene radical cation are investigated theoretically, based on ab initio electronic structure data, and employing the linear vibronic coupling model. Low-energy conical intersections, and strong vibronic couplings are found to prevail within the set of (X) over tilde-(A) over tilde and (B) over tilde-(C) over tilde-(D) over tilde cationic states, while the interactions between these two sets of states are found to be rather weak (owing to high-energy conical intersections). The overall intensity distribution of the experimental photoelectron spectrum, as well as the line positions observed in the MATI spectrum, are well reproduced. The vibronic interactions in the (X) over tilde-(A) over tilde states are found to be a replica of the multi-mode dynamical Jahn-Teller effect in the parent system, the (X) over tilde E-2(1g) around state of the benzene radical cation. Ultrafast internal conversion processes within the electronic manifolds in question demonstrate the strength of the nonadiabatic coupling effects and complement the analogous findings for the electronic spectra. The implications for the fluorescence dynamics of the fluorobenzene radical cation are discussed. (c) 2006 Elsevier B.V. All rights reserved.
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