V. K. Jaiswal, F. Montorsi, F. Aleotti, F. Segatta, Daniel Keefer, Shaul Mukamel, A. Nenov, I. Conti, M. Garavelli
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引用次数: 0
摘要
我们在扩展的多态完全有源空间二阶扰动(XMS-CASPT2)理论水平上,通过非绝热表面跳变模拟,研究了环丁酮激发到单子 n → 雷德贝格态的超快时间演化。这些动力学预测了在三重子最小参与的情况下,以 822 ± 45 fs 的时间尺度弛豫到基态。通向基态的主要弛豫路径涉及一个三态退化区,并导致多种碎片化光产物。我们模拟了由此产生的时间分辨电子衍射光谱,它跟踪了激发态的弛豫和基态中各种光致产物的形成。
Ultrafast photochemistry and electron-diffraction spectra in n → (3s) Rydberg excited cyclobutanone resolved at the multireference perturbative level
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.
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