即时 Ab Initio Hagedorn 波包动力学：二氟碳的单振动级荧光光谱

arXiv - PHYS - Computational Physics Pub Date : 2024-09-03 DOI:arxiv-2409.01862

Zhan Tong Zhang, Máté Visegrádi, Jiří J. L. Vaníček

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引用次数: 0

摘要

哈格多恩波包已被用于局部谐波近似，以部分捕捉单振子级（SVL）谱模型势上的非谐波效应。为了使哈格多恩方法适用于现实的非谐波多原子分子，我们在这里将局部谐波哈格多恩波包动力学与即时原子动力学结合起来。然后，我们通过计算二氟碳的 SVL 荧光光谱来检验这种方法，二氟碳是一种具有非常非谐波势能面的软弱小分子。我们的方法与时间相关，可以从单一的非谐波半经典波包轨迹中获得所有初始振动水平的发射光谱，而无需拟合单个非谐波振动波函数和计算所有振动跃迁的弗朗克-康顿因子。我们的研究表明，虽然全局谐波模型对于 CF$_2$ 来说是不够的，但是用即时局部谐波 Hagedorn 波包动力学计算出的光谱与实验数据吻合得很好，特别是对于低初始激发。

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On-the-Fly Ab Initio Hagedorn Wavepacket Dynamics: Single Vibronic Level Fluorescence Spectra of Difluorocarbene

Hagedorn wavepackets have been used with local harmonic approximation to partially capture the anharmonic effects on single vibronic level (SVL) spectra in model potentials. To make the Hagedorn approach practical for realistic anharmonic polyatomic molecules, here we combine local harmonic Hagedorn wavepacket dynamics with on-the-fly ab initio dynamics. We then test this method by computing the SVL fluorescence spectra of difluorocarbene, a small, floppy molecule with a very anharmonic potential energy surface. Our time-dependent approach obtains the emission spectra of all initial vibrational levels from a single anharmonic semiclassical wavepacket trajectory without the need to fit individual anharmonic vibrational wavefunctions and to calculate the Franck--Condon factors for all vibronic transitions. We show that, whereas global harmonic models are inadequate for CF$_2$, the spectra computed with the on-the-fly local harmonic Hagedorn wavepacket dynamics agree well with experimental data, especially for low initial excitations.

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arXiv - PHYS - Computational Physics

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