An InP-based monolithic integrated photoreceiver with a bandwidth of 27 GHz is presented. The device consists of a waveguide fed pin-photodiode and a traveling wave amplifier with coplanar waveguides based on four InAlAs/InGaAs/InP-HFET. The integration concept, receiver design, fabrication process and characterization are shown. The presented concept offers a potential for bit rates in the 100 Gb/s range
For future long-haul optical fiber telecommunication systems, the development of monolithically inte...
A monolithic InP-based photoreceiver for lambda =1.55 mu m is presented. Its optoelectronic conversi...
The photonic-based telecommunication systems are continuously upgraded to a bit rate of 40 Gbit/s. T...
A monolithic integrated photoreceiver for 1.55-μm wavelength has been designed for operation in a 20...
A monolithically integrated photoreceiver is presented. Based on a new integration concept comprisin...
Optical front-ends are considered to play a major role in future communication systems operating at ...
Optical front-ends are considered to play a major role in future communication systems operating at ...
A monolithically integrated photoreceiver is presented. Based on a new integration concept comprisin...
An InP-based photoreceiver OEIC for lambda =1.55 mu m with a bandwidth of 27 GHz is reported. The re...
A novel monolithically integrated photoreceiver for 10Gbit/s long-haul optoelectronic transmission s...
For future long-haul communication systems operating at bitrates of 40 Gbit/s and for broad-band mob...
A photoreceiver optoelectronic integrated circuit based on InP with a bandwidth of 37 GHz is present...
An InP-based photoreceiver OEIC with a bandwidth of 27 GHz is reported. The device consists of a pin...
Photoreceivers based on InP are becoming increasingly important for 40 Gbit/s telecommunication syst...
An InP-based photoreceiver comprising a waveguide-integrated photodiode and a traveling-wave amplifi...
For future long-haul optical fiber telecommunication systems, the development of monolithically inte...
A monolithic InP-based photoreceiver for lambda =1.55 mu m is presented. Its optoelectronic conversi...
The photonic-based telecommunication systems are continuously upgraded to a bit rate of 40 Gbit/s. T...
A monolithic integrated photoreceiver for 1.55-μm wavelength has been designed for operation in a 20...
A monolithically integrated photoreceiver is presented. Based on a new integration concept comprisin...
Optical front-ends are considered to play a major role in future communication systems operating at ...
Optical front-ends are considered to play a major role in future communication systems operating at ...
A monolithically integrated photoreceiver is presented. Based on a new integration concept comprisin...
An InP-based photoreceiver OEIC for lambda =1.55 mu m with a bandwidth of 27 GHz is reported. The re...
A novel monolithically integrated photoreceiver for 10Gbit/s long-haul optoelectronic transmission s...
For future long-haul communication systems operating at bitrates of 40 Gbit/s and for broad-band mob...
A photoreceiver optoelectronic integrated circuit based on InP with a bandwidth of 37 GHz is present...
An InP-based photoreceiver OEIC with a bandwidth of 27 GHz is reported. The device consists of a pin...
Photoreceivers based on InP are becoming increasingly important for 40 Gbit/s telecommunication syst...
An InP-based photoreceiver comprising a waveguide-integrated photodiode and a traveling-wave amplifi...
For future long-haul optical fiber telecommunication systems, the development of monolithically inte...
A monolithic InP-based photoreceiver for lambda =1.55 mu m is presented. Its optoelectronic conversi...
The photonic-based telecommunication systems are continuously upgraded to a bit rate of 40 Gbit/s. T...