Controlling the Dynamics of Many-Electron Systems from First Principles: A Combination of Op_Timal Control and Time-Dependent Density-Functional Theory

A. Castro; J. Werschnik; E. K. U. Gross

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Controlling the Dynamics of Many-Electron Systems from First Principles: A Combination of Op_Timal Control and Time-Dependent Density-Functional Theory

机译：从第一原理控制多电子系统的动力学：最优控制与时变密度泛函理论的结合

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Quantum op_Timal control theory (QOCT) provides the necessary tools to theoretically design driving fields capable of controlling a quantum system towards a given state or along a prescribed path in Hilbert space. This theory must be complemented with a suitable model for describing the dynamics of the quantum system. Here, we are concerned with many electron systems (atoms, molecules, quantum dots, etc.) irradiated with laser pulses. The full solution of the many-electron Schrodinger equation is not feasible in general, and therefore, if we aim for an ab initio descrip_Tion, a suitable choice is the time-dependent density-functional theory (TDDFT). In this Letter, we establish the equations that combine TDDFT with QOCT and demonstrate their numerical feasibility.

机译：量子优化控制理论（QOCT）提供了必要的工具，可以从理论上设计能够控制量子系统朝着给定状态或沿着希尔伯特空间中的指定路径进行控制的驱动场。该理论必须辅之以合适的模型来描述量子系统的动力学。在这里，我们关注许多被激光脉冲照射的电子系统（原子，分子，量子点等）。通常，多电子Schrodinger方程的完整解是不可行的，因此，如果我们要从头进行描述，那么合适的选择是时变密度泛函理论（TDDFT）。在这封信中，我们建立了将TDDFT与QOCT结合起来的方程，并证明了它们的数值可行性。

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来源
《Physical review letters》 |2012年第15期|p.153603.1-153603.5|共5页
作者
A. Castro; J. Werschnik; E. K. U. Gross;
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作者单位

ARAID Foundation-Institute for Biocomputation and Physics of Complex Systems (BIFI) and Zaragoza Scientific Center for Advanced Modeling (ZCAM), University of Zaragoza, E-50018 Zaragoza, Spain;

Jenop_Tik Op_Tical Systems GmbH, Jena, Germany;

Max-Planck-Institut fur Mikrostrukturphysik, Weinberg 2, D-06120 Halle, Germany;

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quantum description of interaction of light and matter; related experiments; numerical optimization; coherent control of atomic interactions with photons;

机译：光与物质相互作用的量子描述;相关实验;数值优化;与光子原子相互作用的相干控制;

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Controlling the Dynamics of Many-Electron Systems from First Principles: A Combination of Op_Timal Control and Time-Dependent Density-Functional Theory

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