Impact of the all-optical gain-clamping technique on the transience characteristics of cascaded discrete fiber Raman amplifiers |
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Authors: | Johann Gest Lawrence R. Chen |
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Affiliation: | Photonic Systems Group, Department of Electrical and Computer Engineering, McGill University, Montreal, Que., Canada H3A 2A7 |
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Abstract: | We theoretically analyse the dynamic response of amplifier cascades involving combinations of unclamped and gain-clamped discrete fiber Raman amplifiers (DFRAs) in the worst possible case of power transients. We consider a 64-channel system in which all of the channels except one (i.e. the surviving channel) are modulated to simulate channel add/drop. 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 (referred to as a mixed cascade) can be as effective as a cascade comprising all gain-clamped amplifiers for controlling the power transients within tolerable limits (for example, 1 dB). We 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 affects the transient characteristics and that it is possible to control the transients within tolerable limits. |
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Keywords: | Gain transients Fiber Raman amplifiers Gain control Multi-wavelength networks |
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