Research on optical amplifiers has highlighted how ionizing radiation negatively impacts the performance of erbium-doped fiber amplifiers (EDFAs), through the degradation of their gain. The amplitudes and kinetics of this degradation are mainly explained by the radiation-induced attenuation (RIA) phenomenon at the pump and signal wavelengths. In this work, the gain degradation of a radiation tolerant EDFA (exploiting a cerium-co-doped active optical fiber) induced by ionizing radiation up to 3 kGy (SiO2), at two dose rates, 0.28 Gy/s and 0.093 Gy/s, is studied through an experimental/simulation approach. Using a home-made simulation code based on the rate and power propagation equations and including the RIA effects, the radiation-dependent...
We experimentally demonstrate a comparative study on the radiation-resistant cerium (Ce) co-doped er...
International audienceThis work investigates the local interplay between radiation-induced darkening...
International audienceThe evolution of Ytterbium 2F5/2 and Erbium 4I13/2 energy level lifetimes vers...
Research on optical amplifiers has highlighted how ionizing radiation negatively impacts the perform...
International audienceIn this work, we developed and exploited simulation tools to optimize the perf...
International audienceRare-earth doped optical fibers have been shown to be very sensitive to radiat...
International audienceThe actual challenge for space researchers is to increase the free space telec...
Gain, noise figure (NF), and output power are considered the common performance metrics of an optica...
We investigated the radiation hardening of optical fiber amplifiers operating in space environments....
Motivated by an increasing demand for functionality and reliability of systems operating in harsh, i...
International audienceWe investigated the efficiencies of two different approaches to increase the r...
We developed an approach to design radiation-hardened rare earth -doped fibers and amplifiers. This ...
International audienceErbium-and ytterbium-doped silica-based fibers (EDF and YDF respectively) ampl...
Er/Yb doped fibers and amplifiers have been shown to be very radiation sensitive, limiting their int...
We experimentally demonstrate a comparative study on the radiation-resistant cerium (Ce) co-doped er...
International audienceThis work investigates the local interplay between radiation-induced darkening...
International audienceThe evolution of Ytterbium 2F5/2 and Erbium 4I13/2 energy level lifetimes vers...
Research on optical amplifiers has highlighted how ionizing radiation negatively impacts the perform...
International audienceIn this work, we developed and exploited simulation tools to optimize the perf...
International audienceRare-earth doped optical fibers have been shown to be very sensitive to radiat...
International audienceThe actual challenge for space researchers is to increase the free space telec...
Gain, noise figure (NF), and output power are considered the common performance metrics of an optica...
We investigated the radiation hardening of optical fiber amplifiers operating in space environments....
Motivated by an increasing demand for functionality and reliability of systems operating in harsh, i...
International audienceWe investigated the efficiencies of two different approaches to increase the r...
We developed an approach to design radiation-hardened rare earth -doped fibers and amplifiers. This ...
International audienceErbium-and ytterbium-doped silica-based fibers (EDF and YDF respectively) ampl...
Er/Yb doped fibers and amplifiers have been shown to be very radiation sensitive, limiting their int...
We experimentally demonstrate a comparative study on the radiation-resistant cerium (Ce) co-doped er...
International audienceThis work investigates the local interplay between radiation-induced darkening...
International audienceThe evolution of Ytterbium 2F5/2 and Erbium 4I13/2 energy level lifetimes vers...