Optical parallel processing enables electronic dispersion compensation in coherent receivers at symbol rates above the employed electronics' speed limit. Up to 64Gbaud QPSK (128Gb/s) are processed and transmitted up to 610km-SSMF without optical dispersion compensation
Abstract A parallel architecture for linear transversal feed-forward (FFE) and decision feedback equ...
We demonstrate a burst mode 112Gb/s DP-QPSK digital coherent optical receiver with parallel DSP suit...
We report on the transmission of a 100Gbit/s PM-QPSK signal on standard installed fiber over a dista...
We report a novel digital coherent receiver based on sampling the signal in the optical domain to ov...
We propose a coherent receiver scheme exploiting optical sampling to overcome the speed limitations ...
Abstract—We report a novel digital coherent receiver based on sampling the signal in the optical dom...
The authors discuss a coherent receiver scheme exploiting optical sampling to overcome the speed lim...
We outline the principles behind digital coherent receivers and report simultaneous compensation of ...
Digital signal processing (DSP) combined with a phase and polarization diverse coherent receiver is ...
With coherent mixing in the optical domain and processing in the digital domain, advanced receiving ...
Real-time parallel optical sampling shows great promise for overcoming the bandwidth limitation of f...
We demonstrate transmission and demodulation of 40Gbit/s per wavelength data, using 10Gbaud polarisa...
Digital filters underpin the performance of coherent optical receivers which exploit digital signal ...
The goal of the project was the demonstration of a novel receiver concept for a fiber-optic communic...
Enhanced-SSFM digital backpropagation (DBP) is experimentally demonstrated and compared to conventio...
Abstract A parallel architecture for linear transversal feed-forward (FFE) and decision feedback equ...
We demonstrate a burst mode 112Gb/s DP-QPSK digital coherent optical receiver with parallel DSP suit...
We report on the transmission of a 100Gbit/s PM-QPSK signal on standard installed fiber over a dista...
We report a novel digital coherent receiver based on sampling the signal in the optical domain to ov...
We propose a coherent receiver scheme exploiting optical sampling to overcome the speed limitations ...
Abstract—We report a novel digital coherent receiver based on sampling the signal in the optical dom...
The authors discuss a coherent receiver scheme exploiting optical sampling to overcome the speed lim...
We outline the principles behind digital coherent receivers and report simultaneous compensation of ...
Digital signal processing (DSP) combined with a phase and polarization diverse coherent receiver is ...
With coherent mixing in the optical domain and processing in the digital domain, advanced receiving ...
Real-time parallel optical sampling shows great promise for overcoming the bandwidth limitation of f...
We demonstrate transmission and demodulation of 40Gbit/s per wavelength data, using 10Gbaud polarisa...
Digital filters underpin the performance of coherent optical receivers which exploit digital signal ...
The goal of the project was the demonstration of a novel receiver concept for a fiber-optic communic...
Enhanced-SSFM digital backpropagation (DBP) is experimentally demonstrated and compared to conventio...
Abstract A parallel architecture for linear transversal feed-forward (FFE) and decision feedback equ...
We demonstrate a burst mode 112Gb/s DP-QPSK digital coherent optical receiver with parallel DSP suit...
We report on the transmission of a 100Gbit/s PM-QPSK signal on standard installed fiber over a dista...
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