Improving Parameters Precision of Quantum Estimation by Homodyne-Based Feedback Control

Rao Huangyun

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Improving Parameters Precision of Quantum Estimation by Homodyne-Based Feedback Control

机译：基于ocodyne的反馈控制提高量子估计的参数精度

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In this paper, we investigate the improvement of quantum Fisher information (QFI) of a single-qubit system coupled to a common reservoir by homodyne-based feedback control. It is shown that by controlling the polar parameter of the initial quantum state, one may improve the quantum Fisher information of the estimated parameters. By comparing the effects of different feedback control types on QFI, we find that under the homodyne-based feedback control, when the feedback Hamiltonian is selected as lambda sigma(x), the estimation precision of feedback parameters and dissipation coefficient can be improved.

机译：在本文中，我们调查了通过基于杂于基于Homodyne的反馈控制耦合到公共储层的单个Qubist系统的量子Fisher信息（QFI）的改进。结果表明，通过控制初始量子状态的极性参数，可以改善估计参数的量子Fisher信息。通过比较不同反馈控制类型对QFI的影响，我们发现在基于杂交的反馈控制下，当反馈Hamiltonian被选择为Lambda Sigma（x）时，可以提高反馈参数和耗散系数的估计精度。

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《International Journal of Theoretical Physics: A Journal of Original Research and Reviews in Theoretical Physics and Related Mathematics, Dedicated to the Unification of Physics》 |2020年第1期|共9页
作者
Rao Huangyun;
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作者单位

East China Univ Technol Fuzhou Normal Coll Fuzhou 344000 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类理论物理学;
关键词
Parameter estimation; Quantum fisher information; Homodyne-based feedback control;

机译：参数估计;量子Fisher信息;基于obodyne的反馈控制;

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1. Improving Parameters Precision of Quantum Estimation by Homodyne-Based Feedback Control [J] . Rao Huangyun International Journal of Theoretical Physics: A Journal of Original Research and Reviews in Theoretical Physics and Related Mathematics, Dedicated to the Unification of Physics . 2020,第1期

机译：基于ocodyne的反馈控制提高量子估计的参数精度
2. Enhancing the precision of parameter estimation in a dissipative qutrit via quantum feedback control and classical driving [J] . Quantum information processing . 2020,第4期

机译：通过量子反馈控制和经典驾驶增强耗散Qutrit中参数估计的精度
3. Enhancing real-time parameters estimation precision by quantum jump-based feedback control [J] . Cai Shihua, Hu Juju, Ji Yinghua Optik: Zeitschrift fur Licht- und Elektronenoptik: = Journal for Light-and Electronoptic . 2019,第期

机译：通过量子跳跃的反馈控制增强实时参数估计精度
4. Optimal Precision of Quantum System Parameter Estimation Subject to Instrumentation Constraints [C] . Robert L. Kosut IFAC World Congress . 2008

机译：仪表约束对量子系统参数估计的最佳精度
5. Ultimate Precision for Quantum Enhanced Parameter Estimation [D] . Chen, Hongzhen. 2020

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6. Improving Parameter Estimation of Entropic Uncertainty Relation in Continuous-Variable Quantum Key Distribution [O] . Ziyang Chen, Yichen Zhang, Xiangyu Wang, 2019

机译：改进连续变量量子密钥分布中熵不确定性关系的参数估计
7. The Effect of Homodyne-Based Feedback Control on Quantum Speed Limit Time [O] . Soroush Haseli 2020

机译：基于Homodyne的反馈控制对量子速度限制时间的影响
8. PDE-Based Methodology for Modeling, Parameter Estimation and Feedback Control inStructural and Structural Acoustic Systems [R] . Banks, H. T., Brown, D. E., Metcalf, V. L., 1994

机译：基于pDE的结构声学系统建模，参数估计和反馈控制方法

Improving Parameters Precision of Quantum Estimation by Homodyne-Based Feedback Control

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