SiComb | CMOS compatible and ultra broadband on-chip SiC frequency comb

Summary
A CMOS compatible and ultra broadband on-chip Silicon Carbide frequency comb (SiComb) is going to be demonstrated for the first time by this project. It is achieved by an interdisciplinary collaboration effort of combing unique optical nonlinearity of SiC, growth of low optical loss SiC thin film and fabrication of high quality factor microresonators. As an enabling technology, the on-chip frequency comb is deemed to have far profound impact on diverse areas of science and engineering, including sensing, timekeeping, distance ranging, searching for exoplanets as well as optical communication. For example, the application of this frequency comb in optical communication as a WDM light source will be demonstrated in this project to show the energy saving and the data traffic handling beyond 100 Tb/s. Compared to frequency combs made from AlGaAs, Lithium Niobate etc, SiC has material sustainability advantages: environmentally friendly, biocompatibility, and extended device lifetime and efficiency, which opens new application potentials. In this ambitious 3-years project, SiComb consortium (7 partners from both academic and industrial sectors) with complementary strengths of SiC material growth, device nanofabrication, nonlinear optics and optical communication systems will collaborate to demonstrate the non-incremental and ground-breaking ultra broadband SiC frequency comb chips, with synergy effect at European level. These results will build leading research and innovation capacity on SiC optical devices and applications across Europe and enhance the competiveness and growth of industrial partners. It will also align with European advancement in frequency comb efforts, as well as innovation competence to position Europe in forefront of technologies in the research and innovation. The future market implementation and utilization is expected to have a strong momentum given by the results and stakeholder establishment in the SiComb project.
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More information & hyperlinks
Web resources: https://cordis.europa.eu/project/id/899679
Start date: 01-10-2020
End date: 31-03-2024
Total budget - Public funding: 2 914 295,00 Euro - 2 914 295,00 Euro
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Original description

A CMOS compatible and ultra broadband on-chip Silicon Carbide frequency comb (SiComb) is going to be demonstrated for the first time by this project. It is achieved by an interdisciplinary collaboration effort of combing unique optical nonlinearity of SiC, growth of low optical loss SiC thin film and fabrication of high quality factor microresonators. As an enabling technology, the on-chip frequency comb is deemed to have far profound impact on diverse areas of science and engineering, including sensing, timekeeping, distance ranging, searching for exoplanets as well as optical communication. For example, the application of this frequency comb in optical communication as a WDM light source will be demonstrated in this project to show the energy saving and the data traffic handling beyond 100 Tb/s. Compared to frequency combs made from AlGaAs, Lithium Niobate etc, SiC has material sustainability advantages: environmentally friendly, biocompatibility, and extended device lifetime and efficiency, which opens new application potentials. In this ambitious 3-years project, SiComb consortium (7 partners from both academic and industrial sectors) with complementary strengths of SiC material growth, device nanofabrication, nonlinear optics and optical communication systems will collaborate to demonstrate the non-incremental and ground-breaking ultra broadband SiC frequency comb chips, with synergy effect at European level. These results will build leading research and innovation capacity on SiC optical devices and applications across Europe and enhance the competiveness and growth of industrial partners. It will also align with European advancement in frequency comb efforts, as well as innovation competence to position Europe in forefront of technologies in the research and innovation. The future market implementation and utilization is expected to have a strong momentum given by the results and stakeholder establishment in the SiComb project.

Status

SIGNED

Call topic

FETOPEN-01-2018-2019-2020

Update Date

27-04-2024
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Horizon 2020
H2020-EU.1. EXCELLENT SCIENCE
H2020-EU.1.2. EXCELLENT SCIENCE - Future and Emerging Technologies (FET)
H2020-EU.1.2.1. FET Open
H2020-FETOPEN-2018-2020
FETOPEN-01-2018-2019-2020 FET-Open Challenging Current Thinking