International audienceWe present experimental and numerical investigations of Kerr nonlinearity compensation in a 400-km standard single-mode fiber link with distributed Raman amplification with backward pumping. A dual-pump polarization-independent fiber-based optical parametric amplifier is used for mid-link spectral inversion of 5 × 28-GBd polarization-multiplexed 16-QAM signals. Signal quality factor (Q-factor) improvements of 1.1 dB and 0.8 dB were obtained in the cases of a single-channel and a five-channel wavelength-division multiplexing (WDM) system, respectively. The experimental results are compared to numerical simulations with good agreement. It is also shown with simulations that a maximum transmission reach of 2400 km enabled...
In this paper, we experimentally demonstrate the benefit of polarization insensitive dual-band optic...
We demonstrate fiber nonlinearity mitigation by using multiple optical phase conjugations (OPCs) in ...
We numerically optimise in-span signal power asymmetry in different advanced Raman amplification sch...
We present experimental and numerical investigations of Kerr nonlinearity compensation in a 400-km s...
International audienceWe experimentally investigate Kerr nonlinearity mitigation of a 28-GBd polariz...
International audienceEffective Kerr nonlinearity mitigation is experimentally demonstrated using op...
We experimentally investigate Kerr nonlinearity mitigation of a 28-GBd polarization-multiplexed 16-Q...
Kerr nonlinearity compensation in long-haul optical transmission networks has become necessary since...
We present an experimental investigation of different Kerr nonlinearity mitigation schemes in a 2-sp...
Achievable information rates of optical communication systems are inherently limited by nonlinear di...
We experimentally demonstrate nonlinear noise compensation in optical phase conjugation assisted 1st...
We experimentally demonstrate, for the first time, a significant 34-dB nonlinear product power compe...
In this paper, we investigate various designs of distributed Raman amplifier (DRA) to extend amplifi...
In this paper, we experimentally demonstrate the benefit of polarization insensitive dual-band optic...
In this paper, we experimentally demonstrate the benefit of polarization insensitive dual-band optic...
We demonstrate fiber nonlinearity mitigation by using multiple optical phase conjugations (OPCs) in ...
We numerically optimise in-span signal power asymmetry in different advanced Raman amplification sch...
We present experimental and numerical investigations of Kerr nonlinearity compensation in a 400-km s...
International audienceWe experimentally investigate Kerr nonlinearity mitigation of a 28-GBd polariz...
International audienceEffective Kerr nonlinearity mitigation is experimentally demonstrated using op...
We experimentally investigate Kerr nonlinearity mitigation of a 28-GBd polarization-multiplexed 16-Q...
Kerr nonlinearity compensation in long-haul optical transmission networks has become necessary since...
We present an experimental investigation of different Kerr nonlinearity mitigation schemes in a 2-sp...
Achievable information rates of optical communication systems are inherently limited by nonlinear di...
We experimentally demonstrate nonlinear noise compensation in optical phase conjugation assisted 1st...
We experimentally demonstrate, for the first time, a significant 34-dB nonlinear product power compe...
In this paper, we investigate various designs of distributed Raman amplifier (DRA) to extend amplifi...
In this paper, we experimentally demonstrate the benefit of polarization insensitive dual-band optic...
In this paper, we experimentally demonstrate the benefit of polarization insensitive dual-band optic...
We demonstrate fiber nonlinearity mitigation by using multiple optical phase conjugations (OPCs) in ...
We numerically optimise in-span signal power asymmetry in different advanced Raman amplification sch...