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Unconventional integrated nanophotonIc sources with quantum correlations – UNIQ
The integration of reliable quantum sources on a photonic microchip is at heart of intense research in today quantum photonics. The conventional pathways to achieve single photon sources rely on eithe
QUANTUm METamaterials wit High Tc Superconductors – QUANTUMET
Information and Communications Technologies (ICT) aim at processing and exchanging information by means of electromagnetic waves and electrical currents. For a long time, engineers and researchers hav
Spin-WAve Nanochannels for reprogrammable logic GATEs – SWANGATE
SWANGATE is an ambitious project which aims to develop a new approach for magnonic devices at the nanometer scale. The International Technology Roadmap for Semiconductors has already identified Spin W
Microwave Ultra-Fast Reconfigurable Electronic Devices – MUFRED
New-generation communication / security / surveillance / sensing systems for civilian, defense space or airborne applications require real-time ultra-fast self-reconfigurable devices to efficiently op
Hybrid Electro-Photonic Circuits made through dynamic machining and assembling – CEPAGE
While photonics is emerging as an attractive alternative to electronics in high bit rate telecommunication systems, sensors or signal processing devices, there is a need of specific 3D photonic archit
Ultra-low Dark current metamaterial INfrared detectors – hoUDINi
Although the Mid-Infrared (MIR) and TeraHertz (THz) frequencies (3µm < lambda < 300µm) now benefit from compact and powerful sources of radiation, such as quantum cascade lasers, conversely in the l
Heterogeneous Component Design Technology – HELICITY
The HELICITY industrial research project proposes to develop a new design flow for analog and heterogeneous systems by targeting design space extraction, design automation and behavioral verification of heterogeneous systems.
Electric field assisted spintronic devices – ELECSPIN
Advances in spintronics will be crucial to sustain progress in computation and data storage in the face of dramatic increases in power consumption in aggressively scaled CMOS devices. Until now, spint
Topological insulator and Rashba surface states for spin electronics – TOP-RISE
Most spintronics devices are today based on the manipulation of spin currents that do not carry electrical charges but can be described as equal flows of electrons with opposite spins in opposite dire
SUPERconducting silicon Resonators – SUPERR
We propose a fundamental study, coupled with the exploration of first applications, of the high frequency properties of heavily boron doped superconducting silicon. This non-equilibrium material, sy