Add to ORKG246-248This paper proposes a novel dispersion compensation method using Optical Phase Conjugation (OPC) method with travelling wave Semiconductor Optical Amplifier (SOA) at a data rate of 80Gbps. This method can replace the large optical filters in the existing method using Fiber Bragg Grating (FBG). The performances are measured in terms of critical parameters like OSNR, FWM conversion efficiency, output optical power and output electrical power. Results show that our method can improve the optical power about 18dB from existing method. This proposed method can increases the OSNR about 38dB and RF power about 15dB from the existing method. The conversion efficiency can also be improved about 3dB from the existing method
In current high bit rate long haul point to point optical communication system, the chromatic disper...
Chromatic and temperature induced dispersion can both severely affect incoherent high data rate comm...
We demonstrate simultaneous compensation of loss and chromatic dispersion for 10-Gb/s transmission o...
Chromatic dispersion (CD) has a significant impact on a quality of transmitted optical signal in hig...
In this work we present combined chromatic dispersion compensation methods for fiber optical transmi...
In this paper, WDM transmission experiments are discussed showing simultaneous compensation of nonli...
In case of long distance communication, high bit rate and large bandwidth are always the primary req...
In this paper, we review the recent progress in transmission experiments by employing optical phase ...
The chromatic dispersion (CD) of a single mode fibre (SMF) is an important issue in a long haul opti...
We report on 80-Gb/s transmission over 106 km of standard-fiber (D=16 ps/km/nm) using midspan spectr...
In the paper, the authors compare efficiency of two physical dispersion compensation methods for sin...
A new approach of all optical wavelength converter based on four wave mixing (FWM) in a semiconducto...
The possibility of reducing the gain saturation during the pulse amplification process by means of t...
Chromatic and temperature induced dispersion can both severely affect incoherent high data rate comm...
We experimentally investigate a long-distance, high-bit-rate transmission system which combines opti...
In current high bit rate long haul point to point optical communication system, the chromatic disper...
Chromatic and temperature induced dispersion can both severely affect incoherent high data rate comm...
We demonstrate simultaneous compensation of loss and chromatic dispersion for 10-Gb/s transmission o...
Chromatic dispersion (CD) has a significant impact on a quality of transmitted optical signal in hig...
In this work we present combined chromatic dispersion compensation methods for fiber optical transmi...
In this paper, WDM transmission experiments are discussed showing simultaneous compensation of nonli...
In case of long distance communication, high bit rate and large bandwidth are always the primary req...
In this paper, we review the recent progress in transmission experiments by employing optical phase ...
The chromatic dispersion (CD) of a single mode fibre (SMF) is an important issue in a long haul opti...
We report on 80-Gb/s transmission over 106 km of standard-fiber (D=16 ps/km/nm) using midspan spectr...
In the paper, the authors compare efficiency of two physical dispersion compensation methods for sin...
A new approach of all optical wavelength converter based on four wave mixing (FWM) in a semiconducto...
The possibility of reducing the gain saturation during the pulse amplification process by means of t...
Chromatic and temperature induced dispersion can both severely affect incoherent high data rate comm...
We experimentally investigate a long-distance, high-bit-rate transmission system which combines opti...
In current high bit rate long haul point to point optical communication system, the chromatic disper...
Chromatic and temperature induced dispersion can both severely affect incoherent high data rate comm...
We demonstrate simultaneous compensation of loss and chromatic dispersion for 10-Gb/s transmission o...