Title :
Fast power transients in concatenated Pr3+-doped fluoride fiber amplifiers
Author :
Karásek, Miroslav
Author_Institution :
Inst. of Radio Eng. & Electron., Czechoslovak Acad. of Sci., Prague, Czech Republic
fDate :
3/1/1998 12:00:00 AM
Abstract :
Amplified multiwavelength optical communication networks are prone to substantial saturation induced power fluctuations when a channel is turned on or rerouted. This perturbs amplifier gains at other wavelengths. The effects of addition and/or dropping of wavelength channels due to network reconfigurations or line failures in a multiwavelength network comprising eight concatenated Pr3+-doped fluoride fiber amplifiers (PDFFAs) have been studied theoretically. A large-signal numerical model which incorporates time variation effects and the downstream and upstream propagation of signal, pump and amplified spontaneous emission has been used. In an eight channel WDM network the loss of channels will cause very fast power excursions of the surviving channels. The necessary speed of the link control circuit for surviving channel protection has been investigated
Keywords :
fibre lasers; fluctuations; optical fibre networks; praseodymium; superradiance; telecommunication network reliability; transients; wavelength division multiplexing; amplified multiwavelength optical communication networks; amplified spontaneous emission; amplifier gains; concatenated Pr3+-doped fluoride fiber amplifiers; eight channel WDM network; fast power transients; large-signal numerical model; link control circuit; rerouted; saturation induced power fluctuations; surviving channel protection; surviving channels; upstream propagation; wavelength channel dropping; Circuits; Concatenated codes; Fluctuations; Numerical models; Optical amplifiers; Optical fiber amplifiers; Optical fiber communication; Protection; Spontaneous emission; WDM networks;
Journal_Title :
Lightwave Technology, Journal of
