Electronic excitation energy calculation by the fragment molecular orbital method with three-body effects

Chiba M.; Koido T.

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Electronic excitation energy calculation by the fragment molecular orbital method with three-body effects

机译：三体效应的碎片分子轨道法计算电子激发能

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A scheme for full quantum electronic excited state calculation is proposed that is based on the fragment molecular orbital (FMO) method with three-body effects. The accuracy and efficiency of this scheme is checked by calculating the excitation energy of hydrated formaldehyde and hydrated phenol. In all cases, three-body effects improved the excitation energy by the one- and two-body FMO methods with small computational cost, and the excitation energy approached more closely the full calculation value. The results also show that the three-body effects were relatively large and cannot be neglected.

机译：提出了一种基于三体效应的碎片分子轨道（FMO）方法的全量子电子激发态计算方案。通过计算水合甲醛和水合苯酚的激发能来检查该方案的准确性和效率。在所有情况下，三体效应都可以通过一体和二体FMO方法以较低的计算成本提高激励能量，并且激励能量更接近于整个计算值。结果还表明，三体效应相对较大，不能忽略。

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《The Journal of Chemical Physics》 |2010年第4期|共6页
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Chiba M.; Koido T.;
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1. Electronic excitation energy calculation by the fragment molecular orbital method with three-body effects [J] . Chiba M., Koido T. The Journal of Chemical Physics . 2010,第4期

机译：三体效应的碎片分子轨道法计算电子激发能
2. The three-body fragment molecular orbital method for accurate calculations of large systems [J] . Fedorov DG, Kitaura K Chemical Physics Letters . 2006,第1a3期

机译：用于大系统精确计算的三体碎片分子轨道方法
3. The three-body fragment molecular orbital method for accurate calculations of large systems [J] . Fedorov DG, Kitaura K Chemical Physics Letters . 2006,第1a3期

机译：用于大系统精确计算的三体碎片分子轨道方法
4. Abstract: Towards Highly Accurate Large-Scale Ab Initio Calculations Using Fragment Molecular Orbital Method in GAMESS [C] . Mayes, Maricris L., Fletcher, Graham D., Gordon, Mark S. SC Companion: High Performance Computing, Networking, Storage and Analysis . 2012

机译：摘要：在GAMESS中使用片段分子轨道方法进行高精度的大规模从头算计算
5. A theoretical model for the evaluation and prediction of electronic substituent effects from frontier orbital energies and molecular topology. [D] . Sullivan, Jonathan Jay. 1999

机译：用于评估和预测前沿轨道能量和分子拓扑对电子取代基影响的理论模型。
6. An Efficient Method to Evaluate Intermolecular Interaction Energies in Large Systems Using Overlapping Multicenter ONIOM and the Fragment Molecular Orbital Method [O] . Naoya Asada, Dmitri G. Fedorov, Kazuo Kitaura, -1

机译：利用重叠多中心oniom和片段分子轨道法评估大型系统中分子间相互作用能的有效方法及分子分子轨道法
7. Theoretical Analysis of the Molecular Mechanism of Stabilization of Nova-RNA Complex System: Fragment Molecular Orbital Method Based Quantum Chemical Calculation For the Effect of the Complex Formation on the Electronic State of Biomacromolecular System [O] . Kurisaki Ikuo, Fukuzawa Kaori, Nakano Tatsuya, 2010

机译：Nova-RNA复杂体系稳定化分子机理的理论分析：基于碎片分子轨道方法的量子化学计算，研究复杂形成对生物大分子系统电子态的影响
8. Orbital Alignment Effects in the Ca(4s5p 1P1) to Ca(4s5P 3Pj) Electronic Energy Transfer with Molecular Collision Partners [R] . Bussert, W., Leone, S. R. 1987

机译：Ca（4s5p 1p1）与Ca（4s5p 3pj）电子能量转移与分子碰撞伙伴的轨道对准效应

Electronic excitation energy calculation by the fragment molecular orbital method with three-body effects

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