Journal
CHEMICAL PHYSICS LETTERS
Volume 818, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.cplett.2023.140432
Keywords
Femtosecond time -resolved; Photoelectron imaging; Excited state dynamics; Intersystem crossing
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The ultrafast dynamics of 3,4-difluoroaniline is studied using time-resolved velocity map imaging and mass spectroscopy. After excitation to the S1 state at 299.6 or 291.8 nm, the relaxation process is characterized by three decay components. The hundreds-of-picosecond decay is attributed to intersystem crossing to triplet state and subsequent relaxation, while the dynamics in hundreds-of-femtoseconds for two excitations show differences, possibly due to molecules leaving the Franck-Condon region at 299.6 nm and intramolecular vibrational energy redistribution at 291.8 nm with highly vibrational excitation.
The ultrafast dynamics of 3,4-difluoroaniline is studied by time-resolved velocity map imaging and mass spec-troscopy. Following the excitation with 299.6 or 291.8 nm to the S1 state, relaxation process with three decay components is explored. The hundreds-of-picosecond decay is attributed to the intersystem crossing to triplet state and the nanosecond decay represents the following relaxation of the triplet state. However, the dynamics in hundreds-of-femtoseconds for two excitations are different. We intend to designate it as the molecules leaving the Franck-Condon region at 299.6 nm and as the intramolecular vibrational energy redistribution at 291.8 nm with highly vibrational excitation.
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