Dual wavelength pumping scheme for directly diode-pumped 75X-nm fiber lasers

For decades, researchers have been interested in developing efficient rare-earth-doped laser sources using dual-wavelength pumping. However, dual-wavelength pumping of rare-earth-doped lasers and amplifiers are currently restricted to pump wavelengths longer than the visible. Extending the use of du...

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Bibliographic Details
Published in:Journal of lightwave technology 2023-11, Vol.41 (22), p.1-9
Main Authors: Li, Wensong, Wu, Yulun, Xu, Shihang, Wang, Peng, Chen, Yuan, Piatkowski, Dawid
Format: Article
Language:English
Subjects:
Aluminum fluorides
Barium fluorides
blue-diode pumping
deep red lasers
Diodes
Dual wavelength pumping
Fiber lasers
Holmium
holmium lasers
Lanthanum fluorides
Laser excitation
Laser pumping
Laser theory
Laser transitions
Lasers
optical fiber lasers
Pump lasers
Rare earth elements
Semiconductor lasers
Wavelengths
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Summary:For decades, researchers have been interested in developing efficient rare-earth-doped laser sources using dual-wavelength pumping. However, dual-wavelength pumping of rare-earth-doped lasers and amplifiers are currently restricted to pump wavelengths longer than the visible. Extending the use of dual-wavelength pumping for directly diode-pumped rare-earth-doped lasers is of great importance for both academic and practical purposes. We have developed the first blue dual-wavelength pumping of Holmium-doped ZrF 4 -BaF 2 -LaF 3 -AlF 3 -NaF (Ho:ZBLAN) fiber lasers operating at 75X nm. A dual-wavelength pumping method was proposed by pumping two separate wavelengths of 449 and 442 nm into a Ho:ZBLAN fiber to populate the upper laser state 5 F 4 + 5 S 2 and depopulate the lower laser state 5 I 7 , respectively. The influence of the 449 and/or 442 nm pumping schemes on the efficiency and threshold of the 75X nm laser was studied by varying the active fiber length. For dual-wavelength pumping with blue laser diodes, a shorter fiber and a lower 449 nm pump power are favoured. Our approach expands the applicability of dual-wavelength pumping to visible laser systems with energy-level structures consisting of long-lived lower-level bottlenecks.
ISSN:0733-8724
1558-2213
DOI:10.1109/JLT.2023.3297272