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Cladding light stripper based on CO2 laser ablation and its system applications.

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    A novel cladding light stripper (CLS) fabricated using CO2 laser ablation effectively removes unwanted light in high-power fiber lasers. This efficient CLS operates stably without active cooling, proving its practical application.

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    Area of Science:

    • Optics and Photonics
    • Materials Science
    • Laser Technology

    Background:

    • High-power fiber lasers generate residual pump and signal light leakage into the cladding.
    • This leakage can degrade system performance and damage components.
    • Effective cladding light stripping is crucial for reliable operation.

    Purpose of the Study:

    • To develop and evaluate a segmented cladding light stripper (CLS) using CO2 laser ablation.
    • To assess the stripping efficiency and thermal stability of the fabricated CLS.
    • To demonstrate the practical applicability of laser-ablated CLS in high-power fiber laser systems.

    Main Methods:

    • Fabrication of a three-segment CLS using CO2 laser ablation.
    • Integration of the CLS into a test system for performance evaluation.
    • Comparative analysis with a corrosion-based cladding light stripper.

    Main Results:

    • The CLS achieved a stripping ratio of 30.9 dB with minimal output power loss.
    • Stable operation was observed with a maximum temperature below 52.1°C and uniform thermal distribution.
    • No significant difference in system output power was found compared to corrosion-based CLS.

    Conclusions:

    • Laser-ablated CLS offers high stripping efficiency and practical applicability for high-power fiber lasers.
    • The developed CLS demonstrates excellent thermal stability and uniform performance without active cooling.
    • This technology presents a viable alternative for managing cladding light in demanding laser applications.