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Achievable regions of bursty multi-user wireless communications – ARburst
The exponential growth of connected devices has lead to a new kind of networks called machine to machine (M2M) and Internet of Things (IoT) networks. Future scenarios in mobile communications envisage
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
Theory and numerical modeling of optical resonance – Resonance
Electromagnetic resonators enhance the light-matter interaction, constituting nowadays an essential building block for scientific and technological developments in optics and optoelectronics. The last
Mid-Infrared Metamorphic Interband Cascade vertical cavity Surface Emitting Lasers – MIMIC-SEL
The main objective of MIMIC-SEL is to create the first-ever electrically-pumped Vertical-Cavity Surface Emitting Laser (VCSEL) technology emitting at wavelengths longer than 3µm and operating in CW mo
Selective edge filling of collapsed carbon nanotubes for nanoelectronics – EdgeFiller
We aim to create new bilayer graphene nanoribbons as a superior alternative to currently proposed nanoribbons, proposed as nanocomponents for future electronics. They will be created from large single walled carbon nanotubes, which collapse due to their diameter. This new system has cavities along the collapsed edges which will be then filled. This will allow us to modify the conductivity and introduce charge and spin carriers with exceptional mobility.
Condensed-matter simuLatiOn in circuit quantUm electroDynamics – CLOUD
Physical situations where localized quantum states are strongly coupled to a continuum of electronic excitations are ubiquitous in condensed matter. They all show the same characteristic behavior: a c
Switchable Nanolayers for Photonics on Silicon: towards novel High-efficiency Optoelectronics building blocks – SNAPSHOT
We live in a digital and connected world that relies on the fast transmission and treatment of numerical data. This is mainly due to the development of the microelectronics industry, which is the basi