Summary
The objective of PICTURE project is to develop a photonic integration technology by bonding multi-III-V-dies of different epitaxial stacks to SOI wafers with a thinner and uniform dielectric bonding layer. This heterogeneous integration platform will enable higher performance lasers and photo-detectors using the optimized III-V dies. In addition, the thinner bonding layer will lead to record performance MOSCAP III-V/Si modulators, and to a new generation of wavelength tunable distributed feedback lasers. Moreover the full process including SOI process, bonding, III-V and back-end process will be made on a 200mm R&D CMOS line, leading to higher yield, smaller footprint and lower cost PICs. Two types of PICs with a total capacity of 400Gb/s will be developed, packaged and validated in system configuration.
In parallel, PICTURE project will develop direct growth of high performance quantum-dot lasers and selective area growth on bonded templates for high density future generation of PICs.
The project is coordinated by III-V Lab, and includes University of Southampton, CEA, University College London, Imec, Tyndall, Argotech and Nokia Bell Labs. The consortium is highly complementary, covering all skills required to achieve the project objectives: growth of semiconductor materials, silicon process and III-V process, design and characterization of PICs, prototyping and assessment of PICs in high bit rate digital communication systems:
Apart from the adequacy of the consortium to achieve collectively the project objectives, the consortium partners have the potential to set up a comprehensive supply chain for the future exploitation of the project results, either by exploiting the results “in house” or by setting up suitable partnerships.
In parallel, PICTURE project will develop direct growth of high performance quantum-dot lasers and selective area growth on bonded templates for high density future generation of PICs.
The project is coordinated by III-V Lab, and includes University of Southampton, CEA, University College London, Imec, Tyndall, Argotech and Nokia Bell Labs. The consortium is highly complementary, covering all skills required to achieve the project objectives: growth of semiconductor materials, silicon process and III-V process, design and characterization of PICs, prototyping and assessment of PICs in high bit rate digital communication systems:
Apart from the adequacy of the consortium to achieve collectively the project objectives, the consortium partners have the potential to set up a comprehensive supply chain for the future exploitation of the project results, either by exploiting the results “in house” or by setting up suitable partnerships.
Unfold all
/
Fold all
More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/780930 |
| Start date: | 01-01-2018 |
| End date: | 31-12-2021 |
| Total budget - Public funding: | 4 050 477,00 Euro - 3 924 532,00 Euro |
Cordis data
Original description
The objective of PICTURE project is to develop a photonic integration technology by bonding multi-III-V-dies of different epitaxial stacks to SOI wafers with a thinner and uniform dielectric bonding layer. This heterogeneous integration platform will enable higher performance lasers and photo-detectors using the optimized III-V dies. In addition, the thinner bonding layer will lead to record performance MOSCAP III-V/Si modulators, and to a new generation of wavelength tunable distributed feedback lasers. Moreover the full process including SOI process, bonding, III-V and back-end process will be made on a 200mm R&D CMOS line, leading to higher yield, smaller footprint and lower cost PICs. Two types of PICs with a total capacity of 400Gb/s will be developed, packaged and validated in system configuration.In parallel, PICTURE project will develop direct growth of high performance quantum-dot lasers and selective area growth on bonded templates for high density future generation of PICs.
The project is coordinated by III-V Lab, and includes University of Southampton, CEA, University College London, Imec, Tyndall, Argotech and Nokia Bell Labs. The consortium is highly complementary, covering all skills required to achieve the project objectives: growth of semiconductor materials, silicon process and III-V process, design and characterization of PICs, prototyping and assessment of PICs in high bit rate digital communication systems:
Apart from the adequacy of the consortium to achieve collectively the project objectives, the consortium partners have the potential to set up a comprehensive supply chain for the future exploitation of the project results, either by exploiting the results “in house” or by setting up suitable partnerships.
Status
SIGNEDCall topic
ICT-30-2017Update Date
27-10-2022
Images
No images available.
Geographical location(s)
Structured mapping
Unfold all
/
Fold all
Search
Organisations
-
| III-V LAB (Coördinator)
-
| ALCATEL-LUCENT INTERNATIONAL SA
-
| ARGOTECH AS
-
| COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES (CEA)
-
| INTERUNIVERSITAIR MICRO-ELECTRONICA CENTRUM VZW
-
| UNIVERSITY COLLEGE CORK - NATIONAL UNIVERSITY OF IRELAND, CORK
-
| UNIVERSITY COLLEGE LONDON
-
| UNIVERSITY OF SOUTHAMPTON