Time-Dependent Degradation of Photonic Crystal Fiber Attenuation Around OH Absorption Wavelengths

Author

Gris-Sánchez, I. ; Knight, J.C.

Author_Institution

Univ. of Bath, Bath, UK

Volume

30

Issue

23

fYear

2012

Firstpage

3597

Lastpage

3602

Abstract

We present a study of the time-dependent degradation of attenuation in Photonic Crystal Fibers in the wavelength region from 1350 nm to 1450 nm. Changes in spectral attenuation were monitored over 16 weeks of exposure to a laboratory environment in different solid core PCF´s as well as in a hollow-core bandgap fiber. Increasing spectral attenuation was observed at 1364 nm and at 1384 nm, wavelengths corresponding to known OH absorption features in silica. We also observe the appearance of a broad attenuation peak around 1398 nm. The observed degradation is shown to decrease exponentially from the ends of the fiber, and is attributed to ingress of contaminants from the fiber ends. This attribution is supported by measurements on a fiber stored with sealed ends.

Keywords

holey fibres; light absorption; photonic crystals; OH absorption wavelengths; broad attenuation peak; hollow-core bandgap fiber; laboratory environment; photonic crystal fiber attenuation; solid core PCF; spectral attenuation; time-dependent degradation; wavelength 1350 nm to 1450 nm; Absorption; Attenuation; Degradation; Optical fiber testing; Optical fibers; Pollution measurement; Silicon compounds; Aging; OH contamination; degradation; low loss photonic crystal fiber;

fLanguage

English

Journal_Title

Lightwave Technology, Journal of

Publisher

ieee

ISSN

0733-8724

Type

jour

DOI

10.1109/JLT.2012.2223453

Filename

6327579