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Charge transfer, double and bond-breaking excitations with time-dependent density matrix functional theory

机译：随时间变化的密度矩阵泛函理论的电荷转移，双和键断裂激发

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Time-dependent density functional theory (TDDFT) in its current adiabatic implementations exhibits three remarkable failures: (a) completely wrong behavior of the excited state surface along a bond-breaking coordinate; (b) lack of doubly excited configurations; (c) much too low charge transfer excitation energies. These TDDFT failure cases are all strikingly exhibited by prototype two-electron systems such as dissociating H2 and HeH+. We find for these systems with time-dependent density matrix functional theory that: (a) Within previously formulated simple adiabatic approximations, the bonding-to- antibonding excited state surface as well as charge transfer excitations are described without problems, but not the double excitations; (b) An adiabatic approximation is formulated in which also the double excitations are fully accounted for. © 2008 The American Physical Society.

机译：时变密度泛函理论（TDDFT）在其当前的绝热实现中表现出三个显着的失败：（a）沿键断裂坐标的激发态表面的完全错误行为；（b）缺乏双重激发的构型；（c）太低的电荷转移激发能。这些TDDFT失效案例均通过原型二电子系统（例如，分解H2和HeH +）显着地展现出来。我们发现这些系统具有依赖于时间的密度矩阵泛函理论：（a）在先前公式化的简单绝热近似中，键至反键激发态表面以及电荷转移激发都没有问题，但没有描述双重激发; （b）建立了绝热近似，其中还充分考虑了双激发。 ©2008美国物理学会。

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Giesbertz, K.J.H.; Baerends, E.J.; Gritsenko, O.V.;
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1. Charge Transfer, Double and Bond-Breaking Excitations with Time-Dependent Density Matrix Functional Theory [J] . K. J. H. Giesbertz, E. J. Baerends, O. V. Gritsenko Physical review letters . 2008,第3期

机译：随时间变化的密度矩阵泛函理论的电荷转移，双和断裂断裂激发
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Charge transfer, double and bond-breaking excitations with time-dependent density matrix functional theory

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