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Laser & Optoelectronics Progress, Volume. 60, Issue 11, 1106009(2023)

Progress on Quantum-Enhanced Time-Varying Parameter Estimation

Kaimin Zheng1,2,3,4 and Lijian Zhang1,2,3,4、*
Author Affiliations
  • 1National Laboratory of Solid State Microstructures, Nanjing University, Nanjing 210023, Jiangsu, China
  • 2Key Laboratory of Intelligent Optical Sensing and Manipulation, Ministry of Education, Nanjing 210023, Jiangsu, China
  • 3Collaborative Innovation Center of Advanced Microstructures, Nanjing 210023, Jiangsu, China
  • 4College of Engineering and Applied Sciences, Nanjing University, Nanjing 210023, Jiangsu, China
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    AbstractGet PDF(in Chinese)
    Figures&Tables (7)
    Equations (3)
    References (67)
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    Figures & Tables(7)
    Estimation of time-varying parameter

    Fig. 1. Estimation of time-varying parameter

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    Schematic of adaptive time-varying phase estimation method via weak measurement[49]

    Fig. 2. Schematic of adaptive time-varying phase estimation method via weak measurement[49]

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    Adaptive optical phase estimation using time-symmetric quantum smoothing[50]. (a) Signal and local oscillator generation; (b) adaptive phase estimation; (c) no-adaptive phase estimation; (d) experimental and theoretical variance σ2 of filtered non-adaptive (DH) and adaptive phase (AP); (e) experimental and theoretical variance σ2 of smoothed DH and AP

    Fig. 3. Adaptive optical phase estimation using time-symmetric quantum smoothing[50]. (a) Signal and local oscillator generation; (b) adaptive phase estimation; (c) no-adaptive phase estimation; (d) experimental and theoretical variance σ2 of filtered non-adaptive (DH) and adaptive phase (AP); (e) experimental and theoretical variance σ2 of smoothed DH and AP

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    Conceptual diagram and results for waveform estimation[57]. (a) Concept of waveform estimation with n1 samplings and n2 independent or correlated quantum resources; (b) statistical error; (c) deterministic error; (d) total error

    Fig. 4. Conceptual diagram and results for waveform estimation[57]. (a) Concept of waveform estimation with n1 samplings and n2 independent or correlated quantum resources; (b) statistical error; (c) deterministic error; (d) total error

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    Atomic sensor based on Kalman filtering[59].(a) Time-varying signal estimation based on atomic sensor; (b) applied waveform (input) along with the corresponding measured photocurrent (output) and the recovered waveform (KF estimation); (c) spectrograms of input, output, and KF estimation

    Fig. 5. Atomic sensor based on Kalman filtering[59].(a) Time-varying signal estimation based on atomic sensor; (b) applied waveform (input) along with the corresponding measured photocurrent (output) and the recovered waveform (KF estimation); (c) spectrograms of input, output, and KF estimation

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    Schematic of magnetic field estimation[60]

    Fig. 6. Schematic of magnetic field estimation[60]

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    Real-time sensing of magnetic fields based on a NV center prepared in a CPT setting[61]

    Fig. 7. Real-time sensing of magnetic fields based on a NV center prepared in a CPT setting[61]

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    Kaimin Zheng, Lijian Zhang. Progress on Quantum-Enhanced Time-Varying Parameter Estimation[J]. Laser & Optoelectronics Progress, 2023, 60(11): 1106009

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    Paper Information

    Category: Fiber Optics and Optical Communications

    Received: May. 11, 2023

    Accepted: May. 23, 2023

    Published Online: Jun. 14, 2023

    The Author Email: Lijian Zhang (lijian.zhang@nju.edu.cn)

    DOI:10.3788/LOP231285

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology