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Highly Integrated Cladding Mode Stripper Array for Compact High-Power Industrial Fiber Laser.

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Summary

This study introduces an integrated design for multiple cladding mode strippers, enhancing fiber laser compactness for industrial applications. The innovative approach ensures simultaneous full-power operation with minimal thermal impact, enabling significant space and weight reduction.

Keywords:
cladding mode strippercompact laserfiber laserintegrated deviceoptical fiber device

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Area of Science:

  • Optics and Photonics
  • Laser Technology
  • Materials Science

Background:

  • Fiber lasers are crucial for industrial processing, but their size and heat generation are limiting factors.
  • Cladding mode strippers (CMS) are essential but bulky and hot components in fiber laser systems.
  • Current fiber laser architectures require multiple CMS, increasing overall device footprint and complexity.

Purpose of the Study:

  • To propose and validate an integrated design for multiple cladding mode strippers (CMS) within a single device.
  • To enhance the compactness and power-to-volume ratio of fiber lasers for industrial applications.
  • To demonstrate simultaneous operation of multiple CMS without compromising performance or increasing thermal load.

Main Methods:

  • A novel design integrating multiple CMS into a single housing by offset-placing intense light-stripping regions.
  • Implementation of two and three CMS array devices.
  • Validation tests involving ~500-W cladding power injection into each port.

Main Results:

  • Demonstrated effective separation of hot regions, allowing simultaneous full-power operation of integrated CMS.
  • Achieved minimal temperature increments (≤2.1 °C) with concurrent operation compared to single CMS.
  • Realized significant space/weight reduction: 50% for two-CMS arrays and 67% for three-CMS arrays.

Conclusions:

  • The integrated CMS design significantly enhances fiber laser compactness and efficiency.
  • This approach offers a viable path towards miniaturized, higher power-to-volume ratio fiber lasers for industrial use.
  • The integration method provides a reference for miniaturizing other fiber laser components, potentially lowering costs.