Observation of fuse effect discharge zone nonlinear velocity regime in erbium-doped fibres

F. Domingues; A.R. Frias; P. Antunes; A.O.P. Sousa; R.A.S. Ferreira; P.S. André

doi:10.1049/el.2012.2917

Observation of fuse effect discharge zone nonlinear velocity regime in erbium-doped fibres

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Author(s): F. Domingues ¹ ; A.R. Frias ¹ ; P. Antunes ¹ ; A.O.P. Sousa ¹ ; R.A.S. Ferreira ² ; P.S. André ¹
- Affiliations: 1: Instituto de Telecomunicações and Physics Department, University of Aveiro , Aveiro , Portugal
  2: Physics Department and CICECO, University of Aveiro , Aveiro , Portugal
Source: Electronics Letters, Volume 48, Issue 20, 27 September 2012, p. 1295 – 1296, DOI: 10.1049/el.2012.2917, Print ISSN 0013-5194, Online ISSN 1350-911X

Published 24/10/2012

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Abstract

The self-propelled and self-focusing catastrophic failure in optical fibres, usually designated as fibre fuse effect, is a self-destruction process induced by the propagated signal with optical power values above 1.0 W. Whilst this phenomenon was initial reported in 1988, only recently has it become a real concern for optical networks operators due to the signal power increase. Reported, for the first time, is the existence of a fuse effect discharge zone velocity nonlinear saturation regime, and experimental validation of the theoretical predictions recently developed using travelling solutions is provided.

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Correspondence This article has following corresponding article(s):: Lighting the fuse

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Observation of fuse effect discharge zone nonlinear velocity regime in erbium-doped fibres

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