With the use of fiber lasers pervading diverse applications and environmental conditions, the long-term reliability of low index (LI) polymer coated double-clad (DC) fibers used for this purpose is significant. Mechanical reliability standards for 125um fibers are well established by Telcordia GR-20-CORE requirements and some work1 has been published investigating optical reliability of DC fibers with specially engineered coatings with respect to accelerated temperature and humidity aging. While these are helpful in providing a figure of merit to the optical reliability of LI fluoroacrylate coatings, it becomes important to decouple the effects of temperature and humidity in order to understand the underlying degradation mechanisms of LI polymers in various storage and operating environments. This paper identifies the effects of temperature and humidity on the spectral attenuation of DC fibers and presents a reliability model capable of predicting lifetimes under prolonged exposure to typical temperature and humidity conditions experienced during storage and operation of fiber lasers.
[1]
S. Unger,et al.
Efficient Yb laser fibers with low photodarkening by optimization of the core composition.
,
2008,
Optics express.
[2]
Robert H. Doremus,et al.
Diffusion of water in silica glass
,
1995
.
[3]
Charles R. Kurkjian,et al.
Humidity Dependence of the Fatigue of High‐Strength Fused Silica Optical Fibers
,
2000
.
[4]
Willem W. Griffioen,et al.
COST 218 evaluation of optical fiber lifetime models
,
1993,
Other Conferences.
[5]
M. Engholm,et al.
Experimental evidence for the formation of divalent ytterbium in the photodarkening process of Yb-doped fiber lasers.
,
2013,
Optics express.
[6]
Jaroslaw Abramczyk,et al.
Reliability of low-index polymer coated double-clad fibers used in fiber lasers and amplifiers
,
2011
.
[7]
Mikko Söderlund,et al.
Photodarkening rate in Yb-doped silica fibers.
,
2008,
Applied optics.