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Microstructured fiber cladding light stripper for kilowatt-class laser systems.

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    A novel all-glass microstructured cladding mode stripper handles 350 W of power with high efficiency. This reliable device shows no degradation after 500 hours of testing, advancing high-power fiber optics.

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    Area of Science:

    • Optics and Photonics
    • Materials Science

    Background:

    • High-power fiber lasers require efficient management of unwanted cladding light.
    • Existing cladding mode strippers face limitations in power handling and long-term reliability.

    Purpose of the Study:

    • To present a new all-glass microstructured cladding mode stripper.
    • To demonstrate its high power handling and stripping efficiency.
    • To evaluate its reliability under stress conditions.

    Main Methods:

    • Fabrication of an all-glass microstructured device.
    • Optimization of a graded structure pattern for enhanced performance.
    • Characterization of power handling and stripping efficiency.
    • Long-term stress testing (500 hours).

    Main Results:

    • The device handles cladding light up to approximately 350 W.
    • Stripping efficiencies exceed 22 dB.
    • The optimized graded structure enhances reliability and power capacity.
    • No degradation was observed after 500 hours of stress testing.

    Conclusions:

    • The developed all-glass microstructured cladding mode stripper offers superior performance and reliability for high-power applications.
    • The device is robust and suitable for demanding operational environments.
    • This technology represents a significant advancement in managing cladding light in high-power fiber systems.