Toward Quantum Computing for High-Energy Excited States in Molecular Systems: Quantum Phase Estimations of Core-Level States

Nicholas P.  Bauman; Hongbin  Liu; Eric J.  Bylaska; Sriram  Krishnamoorthy; Guang Hao  Low; Christopher E.  Granade; Nathan  Wiebe; Nathan A.  Baker; Bo  Peng; Martin  Roetteler; Matthias  Troyer; Karol  Kowalski

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Toward Quantum Computing for High-Energy Excited States in Molecular Systems: Quantum Phase Estimations of Core-Level States

机译：朝着分子系统中的高能量激发态的量子计算：核心水平状态的量子相位估计

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This paper explores the utility of the quantum phase estimation (QPE) algorithm in calculating high-energy excited states characterized by the promotion of electrons occupying core-level shells. These states have been intensively studied over the last few decades, especially in supporting the experimental effort at light sources. Results obtained with QPE are compared with various high-accuracy many-body techniques developed to describe core-level states. The feasibility of the quantum phase estimator in identifying classes of challenging shake-up states characterized by the presence of higher-order excitation effects is discussed. We also demonstrate the utility of the QPE algorithm in targeting excitations from specific centers in a molecule. Lastly, we discuss how the lowest-order Trotter formula can be applied to reducing the complexity of the ansatz without affecting the error.

机译：本文探讨了量子相位估计（QPE）算法在计算高能激发态中的应用，其特点是电子占据核级壳层。在过去几十年中，人们对这些态进行了深入研究，尤其是在支持光源实验方面。通过QPE获得的结果与用于描述核心级状态的各种高精度多体技术进行了比较。讨论了量子相位估计器在识别以高阶激发效应为特征的具有挑战性的振荡态类中的可行性。我们还展示了QPE算法在靶向分子中特定中心的激发方面的实用性。最后，我们讨论了如何在不影响误差的情况下应用最低阶Trotter公式来降低ansatz的复杂性。

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来源
《Journal of chemical theory and computation: JCTC》 |2021年第1期|共10页
作者
Nicholas P. Bauman; Hongbin Liu; Eric J. Bylaska; Sriram Krishnamoorthy; Guang Hao Low; Christopher E. Granade; Nathan Wiebe; Nathan A. Baker; Bo Peng; Martin Roetteler; Matthias Troyer; Karol Kowalski;
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作者单位

Physical Sciences Division Pacific Northwest National Laboratory;

Microsoft Quantum;

Physical Sciences Division Pacific Northwest National Laboratory;

Physical Sciences Division Pacific Northwest National Laboratory;

Microsoft Quantum;

Microsoft Quantum;

Physical Sciences Division Pacific Northwest National Laboratory;

Physical Sciences Division Pacific Northwest National Laboratory;

Physical Sciences Division Pacific Northwest National Laboratory;

Microsoft Quantum;

Microsoft Quantum;

Physical Sciences Division Pacific Northwest National Laboratory;

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正文语种 eng
中图分类化学键的量子力学理论;化学;
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Toward Quantum Computing for High-Energy Excited States in Molecular Systems: Quantum Phase Estimations of Core-Level States

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