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Optica, volume 8, issue 6, pages 830

Radiation-balanced silica fiber laser

Jennifer M. Knall 1
M. Engholm 2
Tommy Boilard 3
M Bernier 3
Pierre Baptiste Vigneron 1
Nanjie Yu 4
Peter D. Dragic 4
John Ballato 5
M.J.F. Digonnet 1
Show full list: 9 authors
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Publication typeJournal Article
Publication date2021-06-01
Journal: Optica
scimago Q1
wos Q1
SJR3.549
CiteScore19.7
Impact factor8.4
ISSN23342536
Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Abstract
In optically pumped lasers, heat generated by the quantum defect causes detrimental fluctuations in the output mode, frequency, and power. Common heat-mitigation techniques use bulky mechanical coolers that introduce vibrations, leading to laser frequency and amplitude noise. Here, we present a radiation-balanced fiber laser, optically cooled by anti-Stokes fluorescence (ASF). The gain medium is a silica fiber with a 21-µm-diameter core doped with 2.06 wt. % ${{\rm Yb}^{3 +}}$ and co-doped with ${{\rm Al}_2}{{\rm O}_3}$ and F- to reduce concentration quenching. The laser was core-pumped at 1040 nm to create both gain at 1065 nm and ASF cooling at atmospheric pressure. We demonstrate a maximum output power of 114 mW with a slope efficiency of 41% while maintaining near-zero average temperature change. This result could enable the development of fiber lasers with unprecedented coherence and stability.
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