Relativistic Parametrization of the Self-Consistent-Charge Density-Functional Tight-Binding Method. 1. Atomic Wave Functions and Energies

Henryk A. Witek; Christof Kbhler; Thomas Frauenheim

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Relativistic Parametrization of the Self-Consistent-Charge Density-Functional Tight-Binding Method. 1. Atomic Wave Functions and Energies

机译：自洽电荷密度函数紧密绑定方法的相对论参数化。 1.原子波的功能和能量

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A detailed treatment of a confined relativistic atom, needed as an initial step for the parametrization of the self-consistent-charge density-functional tight-binding method, is presented and discussed. The required one-component quantities, i.e., orbital energies, orbital wave functions, and Hubbard parameters, are obtained by weighted averaging of the corresponding numbers determined for the atomic spinors. The wave function and density confinement is achieved by introducing the Woods-Saxon potential in the atomic four-component Dirac-Kohn-Sham problem. The effect of the additional confining potential on energy eigenvalues and the shape of atomic wave functions and densities is discussed and numerical examples are presented for the valence spinors of carbon, germanium, and lead.

机译：提出并讨论了对狭义相对论原子的详细处理，这是自洽电荷密度函数紧密结合方法参数化的第一步。所需的单分量数量，即轨道能量，轨道波函数和Hubbard参数，是通过对为原子自旋子确定的相应数量进行加权平均而获得的。通过将Woods-Saxon势引入原子四成分Dirac-Kohn-Sham问题中来实现波函数和密度限制。讨论了附加限制势对能量本征值以及原子波函数的形状和密度的影响，并给出了碳，锗和铅的价态旋量的数值示例。

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《The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory》 |2007年第26期|共8页
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Henryk A. Witek; Christof Kbhler; Thomas Frauenheim;
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1. Relativistic Parametrization of the Self-Consistent-Charge Density-Functional Tight-Binding Method. 1. Atomic Wave Functions and Energies [J] . Henryk A. Witek, Christof Kbhler, Thomas Frauenheim The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2007,第26期

机译：自洽电荷密度函数紧密绑定方法的相对论参数化。 1.原子波的功能和能量
2. Analytical second-order geometrical derivatives of energy for the self-consistent-charge density-functional tight-binding method [J] . Witek HA, Irle S, Morokuma K The Journal of Chemical Physics . 2004,第11期

机译：自洽电荷密度函数紧束缚方法的能量解析二阶几何导数
3. Analytical second-order geometrical derivatives of energy for the self-consistent-charge density-functional tight-binding method [J] . Witek HA, Irle S, Morokuma K The Journal of Chemical Physics . 2004,第11期

机译：自洽电荷密度函数紧束缚方法的能量解析二阶几何导数
4. Early events when heating 5,5'-bis(2,4,6-trinitrophenyl)-2,2-bi(1,3,4-oxadiazole): Self-consistent charge density-functional tight-binding molecular dynamics simulations [C] . Huaiyu Jiang, Qingjie Jiao Seminar on new trends in research of energetic materials . 2019

机译：加热5,5'-双（2,4,6-三硝基苯基）-2,2-bi（1,3,4-恶二唑）时的早期事件：自洽电荷密度-功能紧密结合分子动力学模拟
5. Introduction of a fully relativistic capable basis set in the ab initio orthogonalized linear combination of atomic orbitals method. [D] . Thomas, Patrick Ryan. 2014

机译：在从头开始正交组合原子轨道的方法中引入具有完全相对论能力的基础集。
6. DFTB3: Extension of the self-consistent-charge density-functional tight-binding method (SCC-DFTB) [O] . Michael Gaus, Qiang Cui, Marcus Elstner -1

机译：DFTB3：自洽电荷密度官能紧密结合方法的扩展（sCC-DFTB）
7. DFTB3: Extension of the Self-Consistent-Charge Density-Functional Tight-Binding Method (SCC-DFTB) [O] . Michael Gaus, Qiang Cui, Marcus Elstner 2011

机译：DFTB3：延伸自成电荷密度功能紧密绑定方法（SCC-DFTB）

Relativistic Parametrization of the Self-Consistent-Charge Density-Functional Tight-Binding Method. 1. Atomic Wave Functions and Energies

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