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Proceedings Paper

Analysis of gain transients in cascades of discrete fiber Raman amplifiers
Author(s): Johann Gest; Lawrence R. Chen
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Paper Abstract

Discrete fiber Raman amplifiers (DFRAs) are a candidate technology for extending the transmission capacity of dynamic optical networks such as agile all-photonic networks. However, as with conventional doped fiber amplifiers, they suffer from power transients following the addition or removal of channels which results in system penalties due to degradation in optical signal-to-noise-ratio or nonlinear effects. Recently, several groups have investigated all-optical gain-clamping, which consists in introducing a lasing feedback signal in the amplifier, as a means for gain control and mitigating the power transients. In this paper, we theoretically analyse the dynamic response of DFRA cascades in the worst possible case of power transients. In particular, we consider a 64-channel system in which all of the channels except one (i.e. the surviving channel) are cut from and subsequently added to the first amplifier of the cascade. While previous studies have focused on the transient response of the surviving channel when all of the amplifiers in the cascade are either unclamped or gain-clamped, we consider here cascades involving combinations of unclamped and gain-clamped DFRAs. We vary the number and the position of the gain-clamped DFRAs in the cascade to determine whether a cascade in which only a few amplifiers are gain-clamped can be effective for controlling the power transients within tolerable limits. To simulate the dynamic response of the DFRAs, we have developed a new technique, based on a temporal average power analysis. In our simulations, we also take into account the location of the surviving channel and the operational regime of the amplifiers. Our results show that the location of the gain-clamped DFRAs in a mixed cascade is not important when the amplifiers are operated in small-signal regime; on the other hand, as the input signal power is increased, it becomes more preferable to place the gain-clamped amplifiers at the beginning of the cascade.

Paper Details

Date Published: 13 October 2005
PDF: 10 pages
Proc. SPIE 5970, Photonic Applications in Devices and Communication Systems, 59702I (13 October 2005); doi: 10.1117/12.628484
Show Author Affiliations
Johann Gest, McGill Univ. (Canada)
Lawrence R. Chen, McGill Univ. (Canada)

Published in SPIE Proceedings Vol. 5970:
Photonic Applications in Devices and Communication Systems
Peter Mascher; John C. Cartledge; Andrew Peter Knights; David V. Plant, Editor(s)

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