We study the ultrafast time evolution of cyclobutanone excited to the singlet n -> Rydberg state through non-adiabatic surface-hopping simulationsperformed at extended multi-state complete active space second-order perturbation (XMS-CASPT2) level of theory. These dynamics predict relaxation to the ground-state with a timescale of 822 +/- 45 fs with minimal involvement of the triplets. The major relaxation path to the ground-state involves a three-state degeneracy region and leads to a variety of fragmented photoproducts. We simulate the resulting time-resolved electron-diffraction spectra, which track the relaxation of the excited state and the formation of various photoproducts in the ground state.
Jaiswal, V.K., Montorsi, F., Aleotti, F., Segatta, F., Keefer, D., Mukamel, S., et al. (2024). Ultrafast photochemistry and electron-diffraction spectra in n → (3s) Rydberg excited cyclobutanone resolved at the multireference perturbative level. THE JOURNAL OF CHEMICAL PHYSICS, 160, 1-9 [10.1063/5.0203624].
Ultrafast photochemistry and electron-diffraction spectra in n → (3s) Rydberg excited cyclobutanone resolved at the multireference perturbative level
Jaiswal, V. K.;Montorsi, F.;Aleotti, F.;Segatta, F.;Mukamel, Shaul;Nenov, A.;Conti, I.;Garavelli, M.
2024
Abstract
We study the ultrafast time evolution of cyclobutanone excited to the singlet n -> Rydberg state through non-adiabatic surface-hopping simulationsperformed at extended multi-state complete active space second-order perturbation (XMS-CASPT2) level of theory. These dynamics predict relaxation to the ground-state with a timescale of 822 +/- 45 fs with minimal involvement of the triplets. The major relaxation path to the ground-state involves a three-state degeneracy region and leads to a variety of fragmented photoproducts. We simulate the resulting time-resolved electron-diffraction spectra, which track the relaxation of the excited state and the formation of various photoproducts in the ground state.| File | Dimensione | Formato | |
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cyclobutanone.pdf
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SI_Revised_MG.pdf
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