Performance of special radiation-hardened optical fibers intended for use in the telecom spectral windows at a megagray level

Author

Tomashuk, A.L. ; Dianov, E.M. ; Golant, K.M. ; Khrapko, R.R. ; Spinov, D.E.

Author_Institution

Inst. of Gen. Phys., Acad. of Sci., Moscow, Russia

fYear

1997

fDate

15-19 Sep 1997

Firstpage

453

Lastpage

456

Abstract

Gamma-radiation-induced absorption spectra (2.15 MGy(Si)) are compared in N-doped and pure silica fibers fabricated by surface plasma CVD-process under different regimes with the aim to reveal the chief absorption mechanisms in the telecom spectral windows and to work out an optimum fiber design. The long wavelength absorption edge is shown to be the main absorption mechanism at megagray doses. Its value increases with increasing bonded hydrogen concentration in the fiber glass network and is slightly greater in N-doped fibers. No nitrogen-related color centers have been revealed in the short wavelength loss edge, which is determined by chlorine impurity in silica

Keywords

defect absorption spectra; gamma-ray effects; optical fibre communication; optical fibre losses; plasma CVD coatings; radiation hardening (electronics); 2.15 MGy; N-doped silica fiber; SiO₂; SiO₂:N; absorption edge; bonded hydrogen concentration; chlorine impurity; gamma radiation induced absorption spectra; glass network; loss edge; optical fiber; pure silica fiber; radiation hardening; surface plasma CVD; telecom spectral window; Bonding; Electromagnetic wave absorption; Glass; Hydrogen; Optical fibers; Optical surface waves; Plasma waves; Silicon compounds; Telecommunications; Windows;

fLanguage

English

Publisher

ieee

Conference_Titel

Radiation and Its Effects on Components and Systems, 1997. RADECS 97. Fourth European Conference on

Conference_Location

Cannes

Print_ISBN

0-7803-4071-X

Type

conf

DOI

10.1109/RADECS.1997.698964

Filename

698964