In this paper, we report on the performance comparison of all-optical signal processing methodologies to compensate fiber transmission impairments, namely chromatic dispersion and nonlinear distortion caused by the Kerr effect, in a coherent 112 Gbit/s dual-polarization 64 bit quadrature amplitude modulation system over 800 km standard single-mode fiber. We numerically compare optical backward propagation (OBP) with optical phase conjugation (OPC) techniques, namely. mid-link spectral inversion, predispersed spectral inversion, and OPC with nonlinearity module. We also evaluate a self-phase-modulation-based optical limiter with an appropriate prechirping to compensate for the intensity fluctuations as a hybrid approach with OBP. The results...
The capacity of optical fiber communication networks is limited by the Kerr effect inherent to trans...
We live in the information era, where the ever increasing demand for data capacity is driven by the ...
We present results of nonlinear compensation achieved by digital backward-propagation (DBP) for next...
In this paper, we report on the performance comparison of all-optical signal processing methodologie...
We report on the performance comparison of all-optical and digital signal processing techniques to c...
We have numerically implemented a receiver side all-optical signal processing method, i.e. optical b...
We have numerically implemented a receiver side all-optical signal processing method, i.e. optical b...
We have numerically evaluated optical backward propagation (OBP) by the conjunction of dispersion co...
We present an experimental investigation of different Kerr nonlinearity mitigation schemes in a 2-sp...
We experimentally investigate Kerr nonlinearity mitigation of a 28-GBd polarization-multiplexed 16-Q...
International audienceWe experimentally investigate Kerr nonlinearity mitigation of a 28-GBd polariz...
Next-generation optical communication systems will continue to push the ( bandwidth $cdot$ distance)...
The capacity of optical fiber communication networks is limited by the Kerr effect inherent to trans...
Ultra-high capacity fiber optic systems with data rates exceeding 100 Giga bits per second per fiber...
As the data rate of long-haul transmission links is increased, the design and realization of the tra...
The capacity of optical fiber communication networks is limited by the Kerr effect inherent to trans...
We live in the information era, where the ever increasing demand for data capacity is driven by the ...
We present results of nonlinear compensation achieved by digital backward-propagation (DBP) for next...
In this paper, we report on the performance comparison of all-optical signal processing methodologie...
We report on the performance comparison of all-optical and digital signal processing techniques to c...
We have numerically implemented a receiver side all-optical signal processing method, i.e. optical b...
We have numerically implemented a receiver side all-optical signal processing method, i.e. optical b...
We have numerically evaluated optical backward propagation (OBP) by the conjunction of dispersion co...
We present an experimental investigation of different Kerr nonlinearity mitigation schemes in a 2-sp...
We experimentally investigate Kerr nonlinearity mitigation of a 28-GBd polarization-multiplexed 16-Q...
International audienceWe experimentally investigate Kerr nonlinearity mitigation of a 28-GBd polariz...
Next-generation optical communication systems will continue to push the ( bandwidth $cdot$ distance)...
The capacity of optical fiber communication networks is limited by the Kerr effect inherent to trans...
Ultra-high capacity fiber optic systems with data rates exceeding 100 Giga bits per second per fiber...
As the data rate of long-haul transmission links is increased, the design and realization of the tra...
The capacity of optical fiber communication networks is limited by the Kerr effect inherent to trans...
We live in the information era, where the ever increasing demand for data capacity is driven by the ...
We present results of nonlinear compensation achieved by digital backward-propagation (DBP) for next...