Radiation-resistant erbium-doped optical fiber for space applications

Abstract: In the last decade, there has been increased interest in photonic technology for new satellite applications. One critical issue is the high sensitivity to radiative environments of the Erbium Doped Fiber (EDF). It leads to a radiation-induced absorption (RIA) that is not due to erbium content but mainly to the aluminium that ensures the erbium inclusion in glass. As the radiation induced losses grow as an exponential function of fiber length, the principal way so far to reduce EDFA degradation has consisted in… Show more

“…On the ground, a certain higher gain and lower noise figure could be reached by high doping concentration of erbium, thus the length of fiber could be shortened [1] , then the radiation induced loss weakened, however, higher-doped technology such as adding other materials, would lower the erbium fiber mechanical strength by quenching effect [2] . Some showed higher doped erbium fiber by adding more aluminum to reach high gain, which could cause Aluminum-induced RIA [3] .…”

Simulation approach for the design of radiation-hardened Erbium doped fiber amplifiers

“…On the ground, a certain higher gain and lower noise figure could be reached by high doping concentration of erbium, thus the length of fiber could be shortened [1] , then the radiation induced loss weakened, however, higher-doped technology such as adding other materials, would lower the erbium fiber mechanical strength by quenching effect [2] . Some showed higher doped erbium fiber by adding more aluminum to reach high gain, which could cause Aluminum-induced RIA [3] .…”

Simulation approach for the design of radiation-hardened Erbium doped fiber amplifiers