Search
Spin-polarized cathodoluminescence in 2D materials and van der Waals heterostructures – SpinCat
The roadmap of future innovative device developments foresees the reduction of material dimensions down to nanometer scale and the incorporation of 2D compounds with novel degrees of freedom. For instance 2D semiconductors like MoS2 monolayers exhibit a spin texture of the band structure due to a unique coupling between the spin and the valley (momentum) DOF. The«SpinCAT« project aims to explore this unique spin-valley coupling by original and versatile experimental techniques.
3D monolithically integrated SPAD pixels in advanced CMOS FDSOI technology – SPAD-FDSOI
This project meets the performance needs of photodetectors (response time, sensitivity, etc.) for applications such as 3D vision, for example facial recognition or navigation aid, medical imaging, etc. but also for potential new applications in cryptography or photonics / quantum optics.
MagnetoelectrIc oxideS for SpIn-OrbitroNics – MISSION
The energy required for data manipulation and storage are major societal issues. The low-power manipulation of magnetization has become a fundamental challenge for future magnetic information memory and storage technologies. Spin Hall effect-based spin-orbit torque is currently the most promising way to tackle this challenge and has proven its relevance for MRAMs applications. However, there is still a need to further decrease the power consumption of this current-driven effect.
MAGnetism InduCed VALLEY polarization in large scale 2D materials – MAGICVALLEY
For practical use of the valley degree of freedom in transition metal dichalcogenide monolayers, the degeneracy between the non-equivalent K+ and K- valleys has to be lifted. For this purpose, the MAGICVALLEY project proposes to use the proximity exchange coupling between a 2D ferromagnet with high Curie temperature and a (Mo,W)(S,Se)2 monolayer. This will be achieved with well-defined vdW interfaces on large area by using MBE in ultrahigh vacuum and CVD.
Low-Energy On-chip Pre-processing for Activity Recognition – LEOPAR
The emerging “Internet of Things” growth is faced with massive amounts of data to be transferred from connected portable devices to central computation units processing data from multiple sensors. Decreasing the energy consumption of the devices must be a priority to increase the battery lifetime. Since the wireless communication interface is the most energy-hungry parts of the sensor nodes, the LEOPAR project aims at determining the input data relevance to limit the amount of data to transmit.
Logic Elementary Gate Overstacked – LEGO
Logic Elements using Gate Overstacking
Food policies in France: innovation and reconfigurations of public action – POLAL
Innovation and reconfiguration of public action
Absenteeism: firms practices and public policies – APEPP
The project aims to study the impact of some important changes on sickness absences and their consequences on firm’s practices and public policies.
At the edges of kinship : origins and new family configurations – ORIGINES
What meaning should be given to the ties uniting people who, without being relatives in the legal sense, are connected by the circumstances of a procreative act? This multidisciplinary project (history, social anthropology, sociology and law) regards the links - real or fantasized - created by the relation to «origins« in the new family configurations (adoption, assisted reproduction, surrogacy).
Globalisation, Product Quality and Employment Effects – MOQAT
GLOBALIZATION, QUALITY AND LABOR MARKET