The EU-SIPhoDiAS project deals with the development of critical photonic building blocks needed for high-performance and low size, weight, and power (SWaP) photonics-enabled Very High Throughput Satellites (VHTS). In this presentation, we report on the design and fabrication activities during the first year of the project concerning the targeted family of digital and microwave photonic components. This effort aims to demonstrate components of enhanced reliability at technology readiness level (TRL) 7. Specifically, with respect to microwave photonic links, we report: (i) the design of Ka and Q-bands analogue photodetectors that will be assembled in compact packages, allowing for very high bandwidth per unit area and (ii) on the design of co...
Recent research activities in optically-supported wireless communication and their prospects for mee...
During the past years, monolithic integration in InP has been the driving force for the realization ...
HISTORIC aims to develop and test complex photonic integrated circuits containing a relatively large...
We report the design of 112 Gb/s radiation-hard (RH) optical transceiver applicable to intra-satelli...
We report the design of a 112 Gb/s radiation-hardened (RH) optical transceiver applicable to intra-s...
We present the development and verification testing of a high speed multimode, multicore transceiver...
To address the challenges of the Digital Agenda for Europe (DAE) and also to remain in line with the...
In this paper, the potential of Photonic Integrated Circuits for very high throughput satellites is ...
Next generation broadband telecommunication satellites are required to provide very high data throug...
Cost of in-orbit capacity is an important element to take into account when ordering new satellites ...
High data rate communication links are difficult to perform with radio frequency technology under th...
Photonic components offer an advantage of minimizing the size, weight and power consumption (Swap) o...
The exponential growth of internet traffic drives datacenters to constantly improvetheir capacity. S...
Ce travail porte sur la conception et la réalisation de photodiodes UTC en GaInAs/InP pour la détect...
The European H2020-SPACE-ORIONAS project targets the development of optical transceiver and amplifie...
Recent research activities in optically-supported wireless communication and their prospects for mee...
During the past years, monolithic integration in InP has been the driving force for the realization ...
HISTORIC aims to develop and test complex photonic integrated circuits containing a relatively large...
We report the design of 112 Gb/s radiation-hard (RH) optical transceiver applicable to intra-satelli...
We report the design of a 112 Gb/s radiation-hardened (RH) optical transceiver applicable to intra-s...
We present the development and verification testing of a high speed multimode, multicore transceiver...
To address the challenges of the Digital Agenda for Europe (DAE) and also to remain in line with the...
In this paper, the potential of Photonic Integrated Circuits for very high throughput satellites is ...
Next generation broadband telecommunication satellites are required to provide very high data throug...
Cost of in-orbit capacity is an important element to take into account when ordering new satellites ...
High data rate communication links are difficult to perform with radio frequency technology under th...
Photonic components offer an advantage of minimizing the size, weight and power consumption (Swap) o...
The exponential growth of internet traffic drives datacenters to constantly improvetheir capacity. S...
Ce travail porte sur la conception et la réalisation de photodiodes UTC en GaInAs/InP pour la détect...
The European H2020-SPACE-ORIONAS project targets the development of optical transceiver and amplifie...
Recent research activities in optically-supported wireless communication and their prospects for mee...
During the past years, monolithic integration in InP has been the driving force for the realization ...
HISTORIC aims to develop and test complex photonic integrated circuits containing a relatively large...