Paper

Phys. Chem. Chem. Phys., 2001, 3, 3939 - 3945, DOI: 10.1039/b104528h

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Mechanism of the laser initiated ultrafast intracluster reaction in Ba···FCH₃ and Ba···FCD₃

V. Stert, H.-H. Ritze, P. Farmanara and W. Radloff

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The dynamics of the intracluster reaction Ba···FCH₃ BaF + CH₃ in the van der Waals complex of barium and monofluoromethane (CH₃F or CD₃F) initiated by resonant excitation to its electronic à state has been analyzed on the femtosecond timescale. To elucidate the mechanism we have compared the results of pump–probe experiments for the two complexes Ba···FCH₃ and Ba···FCD₃, both excited by 120 fs laser pulses at the resonant wavelength of 618 nm. The measured decay times of the parent ion signals are _IC= 270 ± 30 fs for Ba···FCH₃ and _IC= 430 ± 20 fs for Ba···FCD₃. The detailed analysis is based on the ab initio calculated potential energy surfaces of the parent complex. It is found that the reaction proceeds ia the next lower electronic à state of the complex which is populated after the initial à state excitation by internal conversion with the time constant _IC. The subsequent BaF formation out of the intermediate à state is restricted to very short times of about 50 fs for both parent clusters due to the competing dissociation of the complex (Ba···FCH₃ Ba + CH₃F). Thus, the effective formation times for the BaF reaction products exceed only slightly the obtained time constants _IC for internal conversion.

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