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Nonlinear multimode interference-based dual-color mode-locked fiber laser.

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    This study introduces a dual-color-soliton fiber laser using nonlinear multimode interference. This novel approach enables simultaneous mode locking at two distinct wavebands, offering applications in spectroscopy.

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    Area of Science:

    • Optics and Photonics
    • Laser Physics
    • Nonlinear Optics

    Background:

    • Simultaneous mode locking (SML) at multiple wavelengths is crucial for advanced spectroscopic techniques.
    • Developing compact and efficient dual-wavelength fiber lasers remains a significant challenge in optics.
    • Nonlinear multimode interference offers a promising avenue for novel laser designs.

    Purpose of the Study:

    • To demonstrate a dual-color-soliton fiber laser operating at two distinct wavebands.
    • To investigate the use of a single-mode-multimode-single-mode fiber saturable absorber for simultaneous mode locking.
    • To explore the tunability and stability of dual-color solitons generated via nonlinear multimode interference.

    Main Methods:

    • Fabrication of a fiber laser incorporating a saturable absorber (SA) with a single-mode-multimode-single-mode fiber structure.
    • Utilizing nonlinear multimode interference within the MMF to achieve saturable absorption at 1.5 and 2 µm.
    • Systematic tuning of the MMF length to optimize simultaneous mode locking at two separate wavebands.

    Main Results:

    • Successful generation of dual-color solitons at 1.5 and 2 µm using the proposed SA.
    • Demonstration of stable dual-color soliton operation maintained by slight adjustments to the MMF length.
    • The periodic nature of the SA allows for flexible MMF length selection, simplifying practical SML.

    Conclusions:

    • The presented MMF-based SA enables practical simultaneous mode locking at two distinct wavebands.
    • This approach offers a pathway for developing multi-waveband fiber lasers.
    • The dual-color soliton laser has potential applications in advanced fields like pump-probe spectroscopy.