从绝热和垂直 Franck-Condon 方案计算 UV/vis 光谱，使用笛卡尔和内坐标。

Computing UV/vis spectra from the adiabatic and vertical Franck-Condon schemes with the use of Cartesian and internal coordinates.

机构信息

Max-Planck-Institut für Kohlenforschung, Kaiser-Wilhelm-Platz 1, 45470 Mülheim an der Ruhr, Germany.

出版信息

J Chem Phys. 2013 Dec 21;139(23):234108. doi: 10.1063/1.4844055.

Abstract

We address the effects of using Cartesian or internal coordinates in the adiabatic Franck-Condon (AFC) and vertical Franck-Condon (VFC) approaches to electronic spectra. The adopted VFC approach is a simplified variant of the original approach [A. Hazra, H. H. Chang, and M. Nooijen, J. Chem. Phys. 151, 2125 (2004)], as we omit any contribution from normal modes with imaginary frequency. For our test molecules ranging from ethylene to flavin compounds, VFC offers several advantages over AFC, especially by preserving the properties of the FC region and by avoiding complications arising from the crossing of excited-state potential surfaces or from the failure of the harmonic approximation. The spectral quality for our target molecules is insensitive to the chosen approach. We also explore the effects of Duschinsky rotation and relate the need for internal coordinates to the absence of symmetry elements. When using Duschinsky rotation and treating larger systems without planar symmetry, internal coordinates are found to outperform Cartesian coordinates in the AFC spectral calculations.

摘要

我们研究了在绝热 Franck-Condon（AFC）和垂直 Franck-Condon（VFC）方法中使用笛卡尔坐标或内坐标对电子光谱的影响。所采用的 VFC 方法是原始方法的简化变体[A. Hazra、H. H. Chang 和 M. Nooijen，J. Chem. Phys. 151, 2125（2004）]，因为我们忽略了虚频的正则模态的任何贡献。对于我们从乙烯到黄素化合物的测试分子，VFC 相对于 AFC 具有多个优势，特别是通过保留 FC 区域的特性并避免来自激发态势能面的交叉或谐波近似失效引起的复杂性。我们目标分子的光谱质量对所选方法不敏感。我们还研究了 Duschinsky 旋转的影响，并将对内坐标的需求与缺乏对称元素联系起来。当使用 Duschinsky 旋转并处理没有平面对称的较大系统时，发现内坐标在 AFC 光谱计算中优于笛卡尔坐标。

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从绝热和垂直 Franck-Condon 方案计算 UV/vis 光谱，使用笛卡尔和内坐标。

Computing UV/vis spectra from the adiabatic and vertical Franck-Condon schemes with the use of Cartesian and internal coordinates.

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