Project overview
QUantum Dot On Silicon systems for communications, information processing and sensing (QUDOS).
The sensing, processing and transport of information is at the heart of modern life, as can be seen from the ubiquity of smart-phone usage on any street. From our interactions with the people who design, build and use the systems that make this possible, we have created a programme to make possible the first data interconnects, switches and sensors that use lasers monolithically integrated on silicon, offering the potential to transform Information and Communication Technology (ICT) by changing fundamentally the way in which data is sensed, transferred between and processed on silicon chips. The work builds on our demonstration of the first successful telecommunications wavelength lasers directly integrated on silicon substrates. The QUDOS Programme will enable the monolithic integration of all required optical functions on silicon and will have a similar transformative effect on ICT to that which the creation of silicon integrated electronic circuits had on electronics. This will come about through removing the need to assemble individual components, enabling vastly increased scale and functionality at greatly reduced cost.
The sensing, processing and transport of information is at the heart of modern life, as can be seen from the ubiquity of smart-phone usage on any street. From our interactions with the people who design, build and use the systems that make this possible, we have created a programme to make possible the first data interconnects, switches and sensors that use lasers monolithically integrated on silicon, offering the potential to transform Information and Communication Technology (ICT) by changing fundamentally the way in which data is sensed, transferred between and processed on silicon chips. The work builds on our demonstration of the first successful telecommunications wavelength lasers directly integrated on silicon substrates. The QUDOS Programme will enable the monolithic integration of all required optical functions on silicon and will have a similar transformative effect on ICT to that which the creation of silicon integrated electronic circuits had on electronics. This will come about through removing the need to assemble individual components, enabling vastly increased scale and functionality at greatly reduced cost.
Staff
Lead researchers
Other researchers
Collaborating research institutes, centres and groups
Research outputs
Frederic Gardes, Ilias Skandalos, Valerio Vitali, Thalia Dominguez Bucio, Joaquin Faneca, Ioannis Zeimpekis, Cosimo Lacava & Periklis Petropoulos,
2024
Type: conference
Ilias Skandalos, Thalia Dominguez Bucio, Lorenzo Mastronardi, Aaron Zilkie, Guomin Yu & Frederic Gardes,
2024
Type: conference
Ilias Skandalos, Thalía Domínguez Bucio, Lorenzo Mastronardi, Yaonan Hou, Teerapat Rutirawut & Frederic Gardes,
2023
DOI: 10.1117/12.2648634
Type: conference
Frederic Gardes, Afrooz Shoaa, Greta De Paoli, Ilias Skandalos, Stefan, Tudor Ilie, Teerapat Rutirawut, Wanvisa Talataisong, Joaquin Faneca, Valerio Vitali, Yaonan Hou, Thalía Domínguez Bucio, Ioannis Zeimpekis, Cosimo Lacava & Periklis Petropoulos,
2022, Sensors, 22(11)
DOI: 10.3390/s22114227
Type: review