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First time combination of frozen density embedding theory with the algebraic diagrammatic construction scheme for the polarization propagator of second order

机译：冻结密度嵌入理论与二阶偏振传播器的代数图解构造方案的首次组合

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摘要

The combination of Frozen Density Embedding Theory (FDET) and the Algebraic Diagrammatic Construction (ADC) scheme for the polarization propagator for describing environmental effects on electronically excited states is presented. Two different ways of interfacing and expressing the so-called embedding operator are introduced. The resulting excited states are compared with supermolecular calculations of the total system at the ADC(2) level of theory. Molecular test systems were chosen to investigate molecule–environment interactions of varying strength from dispersion interaction up to multiple hydrogen bonds. The overall difference between the supermolecular and the FDE-ADC calculations in excitation energies is lower than 0.09 eV (max) and 0.032 eV in average, which is well below the intrinsic error of the ADC(2) method itself.

机译：提出了冻结密度嵌入理论（FDET）和偏振传播器的代数图解构造（ADC）方案的组合，以描述环境对电子激发态的影响。介绍了两种不同的接口方式和表示所谓的嵌入运算符的方法。将所得的激发态与理论上的ADC（2）级别的整个系统的超分子计算进行比较。选择了分子测试系统来研究强度不同的分子与环境的相互作用，从分散作用到多个氢键。超分子和FDE-ADC计算的激发能量之间的总体差异低于0.09 eV（最大值）和平均0.032 eV，这大大低于ADC（2）方法本身的固有误差。

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Prager, Stefan; Zech, Alexander; Aquilante, Francesco; Dreuw, Andreas; Wesolowski, Tomasz Adam;
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年度 2016
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专利

1. First time combination of frozen density embedding theory with the algebraic diagrammatic construction scheme for the polarization propagator of second order [J] . Prager Stefan, Zech Alexander, Aquilante Francesco, The Journal of Chemical Physics . 2016,第20期

机译：冻结密度嵌入理论与二阶偏振传播器的代数图解构造方案的首次组合
2. First time combination of frozen density embedding theory with the algebraic diagrammatic construction scheme for the polarization propagator of second order [J] . Prager Stefan, Zech Alexander, Aquilante Francesco, The Journal of Chemical Physics . 2016,第20期

机译：冻结密度嵌入理论与二阶偏振传播器的代数图解构造方案的首次组合
3. Implementation and Application of the Frozen Density Embedding Theory with the Algebraic Diagrammatic Construction Scheme for the Polarization Propagator up to Third Order [J] . Prager Stefan, Zech Alexander, Wesolowski Tomasz A., Journal of chemical theory and computation: JCTC . 2017,第10期

机译：冻结密度嵌入理论与代数施工方案的实施与应用偏振传播者达到三阶
4. A numerical comparison of frozen-time and forward-propagating Riccati equations for stabilization of periodically time-varying systems [C] . Prach Anna, Tekinalp Ozan, Bernstein Dennis S. American Control Conference . 2014

机译：时变系统稳定的冻结时间和前向传播Riccati方程的数值比较
5. A Differential Polarization-Time Coding Scheme for Polarization-Division-Multiplexed Fiber-Optic Communication Systems. [D] . Pan, Chunpo. 2010

机译：偏振分多路复用光纤通信系统的差分偏振时间编码方案。
6. A diagrammatic kinetic theory of density fluctuations in simple liquids in the overdamped limit. II. The one-loop approximation [O] . Kevin R. Pilkiewicz, Hans C. Andersen -1

机译：在超阻尼极限下简单液体中密度波动的图解动力学理论。二。一环近似
7. A Diagrammatic Kinetic Theory of Density Fluctuations in Simple Liquids in the Overdamped Limit. I. A Long Time Scale Theory for High Density [O] . Pilkiewicz, Kevin R., Andersen, Hans C. 2013

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First time combination of frozen density embedding theory with the algebraic diagrammatic construction scheme for the polarization propagator of second order

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