Add to ORKGThe authors report on the downlink performance of a 10 Gb/s long-reach and ultra-dense wavelength-division multiplexed passive optical network, based on a multicarrier transmitter realized by using an externally injected gain-switched distributed-feedback laser diode. Each of the comb channels, spaced by 10 GHz, is modulated with a 3 Gbaud dual polarization quadrature phase shift keying signal that included a 20% overhead for forward error correction. Frequency selectivity and enhanced receiver sensitivity is achieved by employing a digital coherent receiver to receive the signal. Experimental results achieved in a back-to-back and 100 km transmission scenarios show an excellent worst case receiver sensitivity of -44 dBm. . 2013 Optical Soc...
The relative merits of coherent-enabled optical access network architectures are explored, with a fo...
Abstract—The relative merits of coherent-enabled optical access network architectures are explored, ...
©2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
We have proposed and experimentally demonstrated a 6×40-Gb/s long reach dense wavelength division mu...
We investigate the impact of channel spacing and nonlinear transmission over 120 km of standard sing...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
A novel and cost effective long reach PON downlink scenario is proposed employing a multi-carrier tr...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
A novel and cost effective long reach PON downlink scenario is proposed employing a multi-carrier tr...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
A novel and cost effective long reach PON downlink scenario is proposed employing a multi-carrier tr...
Abstract — We have proposed and experimentally demon-strated a 6 × 40-Gb/s long reach dense waveleng...
The relative merits of coherent-enabled optical access network architectures are explored, with a fo...
Abstract—The relative merits of coherent-enabled optical access network architectures are explored, ...
©2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
We have proposed and experimentally demonstrated a 6×40-Gb/s long reach dense wavelength division mu...
We investigate the impact of channel spacing and nonlinear transmission over 120 km of standard sing...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
A novel and cost effective long reach PON downlink scenario is proposed employing a multi-carrier tr...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
A novel and cost effective long reach PON downlink scenario is proposed employing a multi-carrier tr...
We demonstrate 10-Gb/s transmission over more than 130 km of G.652 fiber using a simple directly mod...
A novel and cost effective long reach PON downlink scenario is proposed employing a multi-carrier tr...
Abstract — We have proposed and experimentally demon-strated a 6 × 40-Gb/s long reach dense waveleng...
The relative merits of coherent-enabled optical access network architectures are explored, with a fo...
Abstract—The relative merits of coherent-enabled optical access network architectures are explored, ...
©2017 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...