Efficient calculation of van der Waals dispersion coefficients with time-dependent density functional theory in real time: Application to polycyclic aromatic hydrocarbons

Marques MAL; Castro A; Malloci G; Mulas G; Botti S

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Efficient calculation of van der Waals dispersion coefficients with time-dependent density functional theory in real time: Application to polycyclic aromatic hydrocarbons

机译：时变密度泛函理论实时计算范德华分散系数：在多环芳烃中的应用

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The van der Waals dispersion coefficients of a set of polycyclic aromatic hydrocarbons, ranging in size from the single-cycle benzene to circumovalene (C66H20), are calculated with a real-time propagation approach to time-dependent density functional theory (TDDFT). In the nonretarded regime, the Casimir-Polder integral is employed to obtain C-6, once the dynamic polarizabilities have been computed at imaginary frequencies with TDDFT. On the other hand, the numerical coefficient that characterizes the fully retarded regime is obtained from the static polarizabilities. This ab initio strategy has favorable scaling with the size of the system-as demonstrated by the size of the reported molecules-and can be easily extended to obtain higher order van der Waals coefficients.

机译：一组多环芳烃的范德华分散系数，大小从单环苯到环戊烯（C66H20），是使用实时传播方法根据时变密度泛函理论（TDDFT）计算的。在非延迟方案中，一旦使用TDDFT在虚数频率上计算了动态极化率，就可以使用Casimir-Polder积分获得C-6。另一方面，从静态极化率获得表征完全延迟状态的数值系数。从头开始，该策略具有随系统大小变化的缩放比例（如所报告的分子的大小所示），并且可以轻松地扩展以获得更高阶的范德华系数。

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《The Journal of Chemical Physics》 |2007年第1期|共6页
作者
Marques MAL; Castro A; Malloci G; Mulas G; Botti S;
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正文语种 eng
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ELECTRONIC-ABSORPTION-SPECTRA; EXCITATION-ENERGIES; APPROXIMATION; MOLECULES; CLUSTERS; SYSTEMS; 1ST-PRINCIPLES; COMPLEXES; OCTOPUS; FORCES;

机译：电子吸收谱;激发能;近似;分子;簇;系统;第一原理;复合体;章鱼;力;

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1. Efficient calculation of van der Waals dispersion coefficients with time-dependent density functional theory in real time: Application to polycyclic aromatic hydrocarbons [J] . Marques MAL, Castro A, Malloci G, The Journal of Chemical Physics . 2007,第1期

机译：时变密度泛函理论实时计算范德华分散系数：在多环芳烃中的应用
2. Calculation of van der Waals coefficients in hydrodynamic approach to time-dependent density functional theory [J] . Banerjee A., Harbola MK. The Journal of Chemical Physics . 2002,第17期

机译：时变密度泛函理论的水动力方法计算范德华系数
3. Time-Dependent Density Functional Theory Calculation of van der Waals Coefficient of Potassium Clusters [J] . Banerjee A, Chakrabarti A, Ghanty TK International Journal of Quantum Chemistry . 2009,第6期

机译：时空密度泛函理论计算钾团簇的范德华系数
4. Time-Dependent Density Functional Theory Calculation of Van der Waals Coefficient of Metal Clusters [C] . Amp Banerjee, Manoj K. Harbola, Aparna Chakrabarti, International Conference of Computational Methods in Sciences and Engineering . 2009

机译：金属集群范数系数的时间依赖性密度函数理论计算
5. van der Waals Corrected Density Functional Theory Calculations on Zeolitic Imidazolate Frameworks. [D] . Ray, Keith George. 2013

机译：van der Waals对沸石咪唑盐骨架的密度泛函理论校正。
6. Inaugural Article: Accurate van der Waals coefficients from density functional theory [O] . Jianmin Tao, John P. Perdew, Adrienn Ruzsinszky 2012

机译：就职文章：密度泛函理论的准确范德华系数
7. Efficient calculation of van der Waals dispersion coefficients with time-dependent density functional theory in real time: Application to polycyclic aromatic hydrocarbons [O] . A. L. Marques, M., Castro, A., Malloci, G., 2007

机译：随时间变化的密度泛函理论实时有效地计算范德华分散系数：在多环芳烃中的应用

Efficient calculation of van der Waals dispersion coefficients with time-dependent density functional theory in real time: Application to polycyclic aromatic hydrocarbons

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