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In this contribution, we show for the first time to our knowledge the realization of a high power 1.94 µm triple clad fiber combiner with low insertion losses, thanks to the implementation in the component of a low-index glass capillary. Moreover, in this contribution we discuss the power scalability of a 2.1 µm Ho3+-doped fiber laser architecture integrating the above mentioned triple clad fiber combiner and pumped at 1.94 µm using Tm3+-doped fiber lasers developed at ISL.
N. Dalloz,C. Louot,S. Bigotta,T. Ibach,T. Robin,B. Cadier, andA. Hildenbrand-Dhollande
"High power triple clad fiber combiner and its application for the power scaling of 2.1 μm Ho3+-doped fiber lasers pumped at 1.9 μm", Proc. SPIE 12866, Components and Packaging for Laser Systems X, 1286602 (12 March 2024); https://doi.org/10.1117/12.3002237
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N. Dalloz, C. Louot, S. Bigotta, T. Ibach, T. Robin, B. Cadier, A. Hildenbrand-Dhollande, "High-power triple clad fiber combiner and its application for the power scaling of 2.1 µm Ho3+-doped fiber lasers pumped at 1.9 µm," Proc. SPIE 12866, Components and Packaging for Laser Systems X, 1286602 (12 March 2024); https://doi.org/10.1117/12.3002237