High-power and tunable operation of erbium-ytterbium co-doped cladding-pumped fiber laser
High-power and tunable operation of erbium-ytterbium co-doped cladding-pumped fiber laser
We describe erbium-ytterbium co-doped fiber lasers in different free-running and tunable configurations. The lasers were cladding-pumped by high-power multimode diode sources. We compare pumping at 915 and 980 nm. With a free-running laser, we obtained slope efficiencies of up to 50% with 915-nm pumping and 38% with 980-nm pumping, with respect to absorbed pump power. We reached a double-ended output power of 16.8 W from the free-running laser. Thanks to a high rare-earth concentration and a small inner cladding area (possible with the high-brightness pump sources we used), the operating pump absorption of the fiber reached 8 dB/m. With such high absorption, short fibers with high nonlinear thresholds are possible even with cladding pumping. The tunable fiber laser had a tuning range from 1533 to 1600 nm and emitted 6.7 W of output power at 1550nm in a high-brightness, single-polarization, narrow linewidth beam.
987-994
Nilsson, J.
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Alam, S.-U.
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Alvarez-Chavez, J.A.
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Turner, P.W.
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Clarkson, W.A.
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Grudinin, A.B.
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2003
Nilsson, J.
f41d0948-4ca9-4b93-b44d-680ca0bf157b
Alam, S.-U.
2b6bdbe5-ddcc-4a88-9057-299360b93435
Alvarez-Chavez, J.A.
fbbf6f21-0e7a-456c-b675-540b4f0501d1
Turner, P.W.
b84fbbe4-2e35-4d0d-9b84-e654be63c4b9
Clarkson, W.A.
3b060f63-a303-4fa5-ad50-95f166df1ba2
Grudinin, A.B.
8f50b467-7d60-46db-b29d-a89b1059a1d8
Nilsson, J., Alam, S.-U., Alvarez-Chavez, J.A., Turner, P.W., Clarkson, W.A. and Grudinin, A.B.
(2003)
High-power and tunable operation of erbium-ytterbium co-doped cladding-pumped fiber laser.
IEEE Journal of Quantum Electronics, 39 (8), .
(doi:10.1109/JQE.2003.814373).
Abstract
We describe erbium-ytterbium co-doped fiber lasers in different free-running and tunable configurations. The lasers were cladding-pumped by high-power multimode diode sources. We compare pumping at 915 and 980 nm. With a free-running laser, we obtained slope efficiencies of up to 50% with 915-nm pumping and 38% with 980-nm pumping, with respect to absorbed pump power. We reached a double-ended output power of 16.8 W from the free-running laser. Thanks to a high rare-earth concentration and a small inner cladding area (possible with the high-brightness pump sources we used), the operating pump absorption of the fiber reached 8 dB/m. With such high absorption, short fibers with high nonlinear thresholds are possible even with cladding pumping. The tunable fiber laser had a tuning range from 1533 to 1600 nm and emitted 6.7 W of output power at 1550nm in a high-brightness, single-polarization, narrow linewidth beam.
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Published date: 2003
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Local EPrints ID: 13829
URI: http://eprints.soton.ac.uk/id/eprint/13829
ISSN: 0018-9197
PURE UUID: 43c26e7e-0dcf-42cc-8edf-af3275f04a0c
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Date deposited: 22 Dec 2004
Last modified: 16 Mar 2024 03:01
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Author:
J.A. Alvarez-Chavez
Author:
P.W. Turner
Author:
A.B. Grudinin
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