A scheme is proposed for increasing the sampling rate of analogue-to-digital conversion by more than an order of magnitude by combining state-of-the-art A/D converters with photonic technology. Ultra-high speed sampling is performed optically by a multiwavelength pulse train. Wavelength demultiplexers convert the high repetition rate data stream of samples into parallel data streams that can be handled by available electronic A/D converters
Real-time parallel optical sampling shows great promise for overcoming the bandwidth limitation of f...
A photonic analog-to-digital converter exploiting a sample time-interleaving approach is presented, ...
A thesis presented on the sampling of high speed optical communications signals, including an overvi...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
The next generation digital information systems such as high performance computers, multigigabit/sec...
All-electronic analog-to-digital conversion (ADC) technology is limited by the timing accuracy and i...
Driven by the increasing demand for speed and capacity in advanced signal-processing systems such as...
We report a novel digital coherent receiver based on sampling the signal in the optical domain to ov...
We performed photonic sampling of 6 Gbaud 16-QAM signals at 20 GHz sampling frequency by interleavin...
Measuring signals in ultra-fast electronic systems requires high-end digital oscilloscopes character...
In an increasingly digital world, the need for high speed and high fidelity analog-to-digital (A/D) ...
AbstractIn this paper we present the practical implementation of a high-speed polyphase sampling and...
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 demonstrate, for the first time, optical sampling by repetition-rate tuning (OSBERT) at record me...
Real-time parallel optical sampling shows great promise for overcoming the bandwidth limitation of f...
A photonic analog-to-digital converter exploiting a sample time-interleaving approach is presented, ...
A thesis presented on the sampling of high speed optical communications signals, including an overvi...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer S...
The next generation digital information systems such as high performance computers, multigigabit/sec...
All-electronic analog-to-digital conversion (ADC) technology is limited by the timing accuracy and i...
Driven by the increasing demand for speed and capacity in advanced signal-processing systems such as...
We report a novel digital coherent receiver based on sampling the signal in the optical domain to ov...
We performed photonic sampling of 6 Gbaud 16-QAM signals at 20 GHz sampling frequency by interleavin...
Measuring signals in ultra-fast electronic systems requires high-end digital oscilloscopes character...
In an increasingly digital world, the need for high speed and high fidelity analog-to-digital (A/D) ...
AbstractIn this paper we present the practical implementation of a high-speed polyphase sampling and...
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 demonstrate, for the first time, optical sampling by repetition-rate tuning (OSBERT) at record me...
Real-time parallel optical sampling shows great promise for overcoming the bandwidth limitation of f...
A photonic analog-to-digital converter exploiting a sample time-interleaving approach is presented, ...
A thesis presented on the sampling of high speed optical communications signals, including an overvi...