Principles of 2R all-optical regeneration in the context of multi-channel operation are presented. Existing fiber-based solutions are reviewed both in terms of implementation issues and performance
Key functional blocks of all-optical 3R-regeneration for photonic networks are discussed. The state ...
Two experimental implementations of amplitude regeneration of WDM signals based on self-phase modula...
We experimentally demonstrate simultaneous all-optical regeneration of two 160-Gbit/s wavelength-div...
We review the progress on the various existing fibre-based solutions proposed to date to extend all-...
Multiwavelength all-optical regeneration has the potential to substantially increase both the capaci...
Transparent All-Optical Regeneration and Wavelength Conversion in Dense Wavelength Division Multiple...
We experimentally report simultaneous 2R all-optical regeneration of four WDM channels using a dispe...
The design and performance of a novel all-fibre based 2R regenerator are presented. Simulations at 1...
Optical communications (2): Transmission systems and networksBasic principles of all-optical signal ...
All-optical signal regeneration techniques are reviewed: fiber and semiconductor based devices are a...
All-optical 2R regeneration with simultaneous wavelength conversion has been realised by a fibre par...
All-optical 2R regeneration with simultaneous wavelength conversion has been realised by a fibre par...
The benefits of using a multi-segmented arrangement of optical fibres for Self-Phase Modulation-base...
All-optical regeneration is likely to be a fundamental building block in next generation optical net...
We demonstrate 43 Gb/s multi-channel 2R regeneration in a single dispersion-managed fiber, based on ...
Key functional blocks of all-optical 3R-regeneration for photonic networks are discussed. The state ...
Two experimental implementations of amplitude regeneration of WDM signals based on self-phase modula...
We experimentally demonstrate simultaneous all-optical regeneration of two 160-Gbit/s wavelength-div...
We review the progress on the various existing fibre-based solutions proposed to date to extend all-...
Multiwavelength all-optical regeneration has the potential to substantially increase both the capaci...
Transparent All-Optical Regeneration and Wavelength Conversion in Dense Wavelength Division Multiple...
We experimentally report simultaneous 2R all-optical regeneration of four WDM channels using a dispe...
The design and performance of a novel all-fibre based 2R regenerator are presented. Simulations at 1...
Optical communications (2): Transmission systems and networksBasic principles of all-optical signal ...
All-optical signal regeneration techniques are reviewed: fiber and semiconductor based devices are a...
All-optical 2R regeneration with simultaneous wavelength conversion has been realised by a fibre par...
All-optical 2R regeneration with simultaneous wavelength conversion has been realised by a fibre par...
The benefits of using a multi-segmented arrangement of optical fibres for Self-Phase Modulation-base...
All-optical regeneration is likely to be a fundamental building block in next generation optical net...
We demonstrate 43 Gb/s multi-channel 2R regeneration in a single dispersion-managed fiber, based on ...
Key functional blocks of all-optical 3R-regeneration for photonic networks are discussed. The state ...
Two experimental implementations of amplitude regeneration of WDM signals based on self-phase modula...
We experimentally demonstrate simultaneous all-optical regeneration of two 160-Gbit/s wavelength-div...
DOI
Add to ORKG