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Related Experiment Video

Updated: Mar 25, 2026

Automation of Mode Locking in a Nonlinear Polarization Rotation Fiber Laser through Output Polarization Measurements
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All polarization-maintaining Er fiber-based optical frequency combs with nonlinear amplifying loop mirror.

N Kuse, J Jiang, C-C Lee

    Optics Express
    |February 25, 2016
    PubMed
    Summary
    This summary is machine-generated.

    A novel all polarization-maintaining Erbium (Er) fiber frequency comb was developed. It achieves unprecedentedly low timing jitter, marking a significant advancement in optical frequency comb technology.

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    Area of Science:

    • Optics and Photonics
    • Laser Physics
    • Metrology

    Background:

    • Optical frequency combs are crucial for high-precision measurements.
    • Stabilizing the carrier-envelope offset frequency is essential for comb performance.
    • Erbium fiber lasers offer advantages for frequency comb generation.

    Purpose of the Study:

    • To demonstrate a fully stabilized, all polarization-maintaining Erbium fiber frequency comb.
    • To achieve ultra-low carrier-envelope-offset frequency phase noise.
    • To attain the lowest integrated timing jitter reported for an Er fiber frequency comb.

    Main Methods:

    • Utilized a nonlinear amplifying loop mirror (NALM) for stabilization.
    • Employed polarization-maintaining (PM) fiber technology throughout the system.
    • Measured carrier-envelope-offset frequency phase noise and integrated timing jitter.

    Main Results:

    • Demonstrated a fully stabilized all-PM Er frequency comb.
    • Achieved carrier-envelope-offset frequency phase noise below 0.2 rad.
    • Measured an integrated timing jitter of 40 attoseconds (from 10 kHz to 10 MHz).

    Conclusions:

    • The developed Er frequency comb represents a significant breakthrough in low-noise optical metrology.
    • The achieved timing jitter is the lowest reported to date for this class of devices.
    • This technology has potential applications in advanced sensing, timing, and spectroscopy.