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Understanding real-time time-dependent density-functional theory simulations of ultrafast laser-induced dynamics in organic molecules

含时密度泛函理论 激发态 激发 密度泛函理论 超短脉冲 人口 超快激光光谱学 物理 激光器 绝热过程 原子物理学 化学 分子物理学 量子力学 社会学 人口学
作者
Jannis Krumland,Ana M. Valencia,Stefano Pittalis,Carlo Andrea Rozzi,Caterina Cocchi
出处
期刊:Journal of Chemical Physics [American Institute of Physics]
卷期号:153 (5) 被引量:23
标识
DOI:10.1063/5.0008194
摘要

Real-time time-dependent density functional theory, in conjunction with the Ehrenfest molecular dynamics scheme, is becoming a popular methodology to investigate ultrafast phenomena on the nanoscale. Thanks to recent developments, it is also possible to explicitly include in the simulations a time-dependent laser pulse, thereby accessing the transient excitation regime. However, the complexity entailed in these calculations calls for in-depth analysis of the accessible and yet approximate (either "dressed" or "bare") quantities in order to evaluate their ability to provide us with a realistic picture of the simulated processes. In this work, we analyze the ultrafast dynamics of three small molecules (ethylene, benzene, and thiophene) excited by a resonant laser pulse in the framework of the adiabatic local-density approximation. The electronic response to the laser perturbation in terms of induced dipole moment and excited-state population is compared to the results given by an exactly solvable two-level model. In this way, we can interpret the charge-carrier dynamics in terms of simple estimators, such as the number of excited electrons. From the computed transient absorption spectra, we unravel the appearance of nonlinear effects such as excited-state absorption and vibronic coupling. In this way, we observe that the laser excitation affects the vibrational spectrum by enhancing the anharmonicities therein, while the coherent vibrational motion contributes to stabilizing the electronic excitation already within a few tens of femtoseconds.

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