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GRAphene for Circuits and sYstem – GRACY
The GRACY proposal is a fundamental research project and focuses on graphene-based circuits dedicated to innovative applications for communication systems. This ambitious project addresses two academic partners (IEMN and IMS) and one industrial partner (Callisto). The proposal involves innovative so
Virtual damping for vibroacoustic design of future launchers – ARIAN
The control of damping is a major problem in the dimensioning of space and land vehicles. By reducing or eliminating costly structural tests, the absence of damping models can lead to over designing the structure instead of insuring its vibration comfort, which constitutes the main objective of the
Interacting Systems and Optimal Transportation, Applications to Computational Economics. – ISOTACE
The use of partial differential equations (PDE) in Economics and more generally social sciences is a relatively young field of research. Optimal Transportation* (OT) and Mean field Games (MFG) theories have, in this context, recently received a lot of attention. The "Computational Fluid D
Silicon Nitride and Graphene Nanopores for Biotechnology and Biology – BioGraph'n
Numerous chemical or biological processes involve the transport of macromolecules through tiny channels of nanometric size. We have been the firsts in France to study these processes (as early as 2003) using natural channels and artificial channels obtained by drilling nanopores in ultra-thin SiC an
Observation and modelling of giant planet's atmospheres – OMAGE
Our goal is to build a General Circulation Model able to simulate the atmospheric circulation of gas giant planets (in particular Jupiter and Saturn). This work is motivated by the recent wealth of ground-based and space observations of various atmospheric phenomena (in particular using data from th
The "GLoC" concept for studying key processes of multiphase reactive transport applied to CO2 geological storage – CGSµLab
The CGSµLab project mainly aims to create real Geological Laboratories on a Chip (GLoCs), able to study at small scales the key processes and mechanisms involved in deep CO2 storage. Experiments performed with these GLoCs, in addition to the ones in capillary tubes, will allow to understand and desc
Wide-scanning, ultra-compact, multi-beam reconfigurable antenna for the next generation of automotive radars for active safety – MM-Scan
The main objective of the MM-Scan project is to propose new low cost reconfigurable antenna architectures for automotive radars dedicated to active safety in W band. These architectures are based on multilayer Printed Circuit Board (PCB) technologies known as SIW (Substrate Integrated Waveguide). Th
Magnetoresistance tunnel devices controlled by NaCl ultrathin layers properties – MAGIC CARPET
During the last decade, the magnetic tunnel junctions (MTJ) have gathered an increasing interest in nanoscience, as they became one of the key devices of a new field of research : spintronics. These heterostructures are made with two ferromagnetic electrodes (FM), separated by an insulating layer (t
Emulation techniques for the REduction, Sensitivity Analysis and INversion of models for subsurface hydrology – RESAIN
This project handles subsurface flow and reactive transport problems by addressing the four following methodological topics: (i) model uncertainty analysis, (ii) model sensitivity analysis, (iii) model reduction in the case of computationally expensive simulators and, (iv) inverse modeling. Two type
The Chirality of Genes – CHIRGEN
The asymmetric photochemistry of nucleotide precursor molecules at synchrotron SOLEIL is dependent upon on the chiroptical properties of these molecules and will most certainly initially yield only small enantiomeric excesses (e.e.s), as we have already observed for amino acids. Thus any asymmetry p
