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Proceedings Paper

Reliability and photodarkening in 790nm-pumped 2μm fiber lasers
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Paper Abstract

Recent progress on high efficiency Tm-doped silica fibers pumped at 790nm has enabled the demonstration of a 2μm CW fiber laser operating at the 1kW power level and with single mode beam quality [1]. In addition to this state-of-the-art high power research, Tm-doped fibers are now starting to find applications in lasers with nsec [2] and psec [3] pulsed operation, as well as lower power CW lasers (50-100W) in the 1940nm wavelength region for medical use [4]. As with Yb-doped fibers, the question of photodarkening needs to be addressed to ensure the long term fiber reliability is appropriate for the application. In a recent paper [5], we proposed that the up-conversion process in highly doped Tm-fibers was significantly quenched when compared with lower concentration fibers, under 790nm pumping. This trend was also observed in the photodarkening rate as measured in a CW 2μm fiber laser cavity operating around 20W output power. In this controlled experiment, the rate of photodarkening dropped from 15% per 1000 hours in low concentration fiber to less than 1% in a fiber doped with 4.6% Tm. In this paper we review the 20W results of our earlier work and then confirm the long term reliability of 1940nm CW fiber lasers operating at higher (40W) output power, presenting results for a laser operating for 1200 hours without significant loss of output power (around 12% total power variation). Over any given 24-hour period during this experiment, the laser operates open loop with around 8% total power variation, in an air cooled configuration. We believe these results confirm the appropriate level of long term reliability of Tm-doped fibers for CW fiber lasers at the ~50W power level, suitable for medical laser applications.

Paper Details

Date Published: 10 February 2011
PDF: 6 pages
Proc. SPIE 7914, Fiber Lasers VIII: Technology, Systems, and Applications, 79140J (10 February 2011); doi: 10.1117/12.879060
Show Author Affiliations
A. Carter, Nufern (United States)
B. Samson, Nufern (United States)
J. Ding, Nufern (United States)
G. Frith, Macquarie Univ. (Australia)
K. Tankala, Nufern (United States)

Published in SPIE Proceedings Vol. 7914:
Fiber Lasers VIII: Technology, Systems, and Applications
Jay W. Dawson, Editor(s)

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