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Correlation-based LiDAR wind sensing using SiPM: methodology and indoor validation.

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    Silicon photomultiplier (SiPM) processing improves compact wind LiDAR systems. Pulse area estimation offers better wind speed accuracy than peak amplitude, enabling cost-effective, fixed-range wind retrieval.

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    Area of Science:

    • Atmospheric Science
    • Optical Engineering
    • Instrumentation

    Background:

    • Wind LiDAR systems are crucial for atmospheric measurements.
    • Compact and cost-effective wind LiDARs are desirable for broader applications.
    • Silicon photomultipliers (SiPMs) offer potential for advanced LiDAR receiver technology.

    Purpose of the Study:

    • To evaluate SiPM processing for cross-correlation wind LiDAR.
    • To compare two intensity estimators (peak amplitude vs. pulse area) for wind retrieval.
    • To assess the feasibility of compact, fixed-range SiPM-based wind LiDAR.

    Main Methods:

    • Utilized a dual-beam, single-receiver architecture.
    • Employed a Monte Carlo SiPM response model for device-level analysis.
    • Conducted indoor fog-tunnel experiments for system-level wind retrieval evaluation.

    Main Results:

    • Pulse area estimation yielded a lower mean relative retrieval error (8.75%) compared to peak amplitude (9.81%).
    • A larger fraction of operating points (74.18%) achieved below 10% relative error with pulse area estimation.
    • Demonstrated quantitative guidance for observable selection in SiPM-based correlation wind retrieval.

    Conclusions:

    • SiPM processing, particularly pulse area estimation, enhances wind retrieval accuracy in correlation LiDAR.
    • The study supports the feasibility of compact, cost-effective, fixed-range wind LiDAR implementations using SiPMs.
    • Results provide valuable insights for designing future SiPM-based atmospheric measurement systems.