Ferroelectric PHOtonics ENablIng novel functionalities and enhanced performance of neXt generating PICs

Digital, Industry & SpaceHORIZON-RIAID: 101070690
EC Contribution
€28,209
Consortium Size
8 orgs
Start Year
2022
Summary

In PHOENIX, we create the next generation of compact photonic integrated circuits (PIC) offering a continuous and efficient control over optical signals. A barium titanate (BTO) on silicon nitride (SiN) platform will be optimized to enable novel functionalities and produce enhanced PICs. The novel functionalities stem from a combination of materials having a metal-insulator transition with epitaxial ferroelectrics. Vanadium oxides (VOx) deliver a maximum contrast in absorption while Barium Titanate (BTO) offers an efficient and programmable control of the phase of an optical signal through Pockels and photorefractive effects.The developed technologies will be demonstrated in four uses cases in high-impact emerging applications: 1) fully homomorphic encryption, 2) 5G infrastructure, 3) inference of deep neural networks and 4) training of deep neural networks.The project has four main objectives: a) to provide novel photonic technologies with enhanced functionalities thanks to the integration of VOx and BTO, b) to provide a BTO/SiN waveguide platform for subsequent manufacturing of PICs and an upgraded version of such a platform integrating VOx with the potential to improve their performance and scalability, c) to build up the demonstrators, and d) to advance in the understanding, realization and upscaling of high-quality oxide thin-films by molecular beam epitaxy (MBE) on large area.The validation of the developed technology will be completed with an extrapolation to benchmark against representative existing systems and a roadmap for photonic-electronic integration. The project will perform a market analysis and a techno-economic evaluation in order to define business models and exploitation plans that ensure the sustainability of the PHOENIX platform to reduce innovation-to market-time and R&I costs for disruptive high-tech SMEs and maximize the impact of the 4 user cases demonstrators.

Consortium (8)

Project Results (18)

Source: CORDIS, the EU research results database.

Publications (14)
All-optical activation function with sub-nanojoule activation energy using VO2-silicon technology
25th European Conference on Integrated Optics· 2025
J. Parra, J.F. Morcillo, K. Schouteden, J.P. Locquet, P. Sanchis
Confinement-Induced Isosymmetric Metal–Insulator Transition in Ultrathin Epitaxial V<sub>2</sub>O<sub>3</sub> Films
ACS Applied Materials & Interfaces· 2024DOI
Simon Mellaerts, Claudio Bellani, Wei-Fan Hsu, Alberto Binetti, Koen Schouteden, Maria Recaman-Payo, Mariela Menghini, Juan Rubio-Zuazo, Jesús López-Sánchez, Jin Won Seo, Michel Houssa, Jean-Pierre Locquet
Phase change materials for integrated photonics
SPIE Photonic West· 2024
J. Parra, J.J. Seoane, J. Navarro, P. Sanchis
Reconfigurable photonics enabled by functional oxides
SPIE Photonic West 2024 , USA· 2024DOI
Pablo Sanchis, Juan Navarro-Arenas, Juan J. Seoane, Jorge Parra
Enhanced BTO/SiN platform with VO2 technology for μm-length amplitude switching
Proceedings of the Spanish Conference on Nanophotonics· 2023
J.J. Seoane, J. Parra, J. Navarro-Arena, P. Sanchis
Epitaxial Growth of V2o3 Thin Films on Si(111) by Molecular Beam Epitaxy
Results in Physics· 2023DOI
Alberto Binetti; Wei-Fan Hsu; Koen Schouteden; Jin Won Seo; Jean-Pierre Locquet; Maria Recaman Payo
Epitaxial oxides for integrated photonics
Invited talk in SPIE Photonics West 2024· 2023
Jin Won Seo, Jean-Pierre Locquet ,Jean Fompeyrine
Hybrid vanadium dioxide-silicon waveguides for photonic neural networks
Proceedings of the Spanish Conference on Nanophotonics· 2023
Jorge Parra Gómez , Juan Jose Seoane and Pablo Sanchis Kilders
Integrated photonic devices for neuromorphic computing
Proceedings of European Materials Research Society Symposium Spring 2023· 2023
Bert Jan Offrein.
New functionalities enabled by phase change materials in silicon devices
E-MRS Spring Meeting 2023· 2023
P. Sanchis, J. Parra, J. Navarro
New functionalities enabled by VO2 for photonic computing
2nd International Conference on Physical Computing· 2023
P. Sanchis
Photonic memory based on VO2/Si technology
Proceedings of 24th European Conference on Integrated Optics· 2023
J. Parra, J.J. Seoane, J. Navarro-Arena, M. Recaman, J.P. Locquet, P. Sanchis,
Raman spectroscopy and phonon dynamics in strained V2O3
Physical Review Materials· 2023DOI
Wei-Fan Hsu , Simon Mellaerts , Claudio Bellani, Pia Homm, Noriyuki Uchida, Mariela Menghini, Michel Houssa, Jin Won Seo and Jean-Pierre Locquet
Towards large scale integration of epitaxial oxides
Invited talk at NanoKorea 2023· 2023
Jean-Pierre Locquet from KULeuven and Jean Fompeyrine from Lumiphase
Deliverables (3)
Other Results (1)
Periodic Reporting for period 1 - PHOENIX (Ferroelectric PHOtonics ENablIng novel functionalities and enhanced performance of neXt generating PICs)