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

A design integrating multiple cladding mode strippers used in fiber laser architectures into a single device is proposed. This approach can increase the compactness of fiber lasers, thus contributing to industrial laser processing applications. By offset-placing the most intense light-stripping part...

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Bibliographic Details
Published in:Micromachines (Basel) 2022-12, Vol.13 (12), p.2226
Main Authors: Liu, Yu, Wu, Wenjie, Zhao, Pengfei, Huang, Shan, Li, Yuwei, Li, Yue, Li, Min, Tao, Rumao, Lin, Honghuan, Wang, Jianjun
Format: Article
Language:English
Subjects:
Arrays
Cladding
cladding mode stripper
compact laser
Equipment and supplies
fiber laser
Fiber lasers
Fiber optics
Heat
Industrial applications
Industrial lasers
integrated device
Laser processing
Lasers
Miniaturization
optical fiber device
Strippers
Temperature
Weight reduction
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Summary:A design integrating multiple cladding mode strippers used in fiber laser architectures into a single device is proposed. This approach can increase the compactness of fiber lasers, thus contributing to industrial laser processing applications. By offset-placing the most intense light-stripping parts, for instance, by inversing the laser injection directions or by displacing the beginning of etched sections, multiple cladding mode strippers bundled together into a single housing can have the hottest regions separated and can operate at full power simultaneously, with no evident cross-influence on each other. Two and three cladding-mode-stripper arrays have been implemented, and validation tests have been conducted with ~500-W cladding power being injected into each input port. For both arrayed devices, compared to the scenario in which only a single cladding mode stripper is working, no greater than a 2.1 °C temperature increment is generated when all components are operating concurrently, which demonstrates the effectiveness of the integration method. In this way, one half and two thirds of space/weight reduction can be realized, respectively, for the two and three cladding-mode-stripper arrays, which is meaningful, since cladding mode strippers are among the most bulky and hottest components in fiber lasers. Moreover, this integration provides a valuable reference for the miniaturization of other components, and thus, could contribute to the development fiber lasers with higher power-to-volume ratios, which would be more economical for industrial applications.
ISSN:2072-666X
2072-666X
DOI:10.3390/mi13122226