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Control theory for neural synchrony: modeling based on optogenetics data, anda closed-loop alteration of pathological brain oscillations – SYNCHNEURO
Analysis of pathological brain oscillations onset based on optogenetics data and design of closed-loop stimulation signals
Role of hemostasis during influenza infections – HemoFlu
Influenza is one of the most common infectious diseases in humans, occurring as seasonal epidemic and sporadic pandemic outbreaks. There is a need for a better understanding of the molecular mechanisms of influenza virus pathogenesis and subsequent development of new therapeutics against influenza.
Inverse problems and parsimony for econometric modeling and applications – IPANEMA
The IPANEMA project wants to develop non- and semi-parametric and high-dimensional inference for structural econometrics models. The inference will be based on inverse problems techniques. While these techniques have been introduced in econometrics since the beginning of the 2000’s, there are still many open questions and a big gap between theoretical inference methods and the practical implementation of them in applied works. Our project aims at filling this gap.
Analysis of Fiscal Policy Mutipliers – AMF
The aim of this project is to analyze the macroeconomic consequences of fiscal policy and to evaluate their effects.
Extensional flow breakup of powder aggregates – AgregEx
This project combines a fundamental study of the disruption of powder aggregates in a fluid and its application to the optimization of a new static mixing device. Our aim is to optimize the design o
Cleaning, doping and etching of CVD graphene by innovative plasma-based technologies assisted by surface and electrical characterizations – CleanGRAPH
The scientific and technological interest in Graphene has recently exploded due to its unique properties, promising many exciting applications in optics, mechanics and electronics. However many challe
Photonic coatings for Light Trapping in organic photovoltaic solar cells – PhotoLighT
It is necessary to keep on improving conversion yields of organic photovoltaic cells. Among various strategies, this project uses the photonics effect of structured layers to improve the light trapping and so the absorption of photon flux.
Covalent crystalline organosilica networks – CrystOS
Self-organized organosilicas: Synthesis under thermodynamic control or by assembly of elementary bricks; Stable thin films for OFET.
Quantum COntrol of large molecular systems : application to CONical IntersectionS – CoConicS
Quantum Control of large molecular systems:<br />application to CONiCal IntersectionS
Stratospheric Dynamics and Variability : Understanding and Solutions to persistent model biases – StraDyVariUS
Climate models and numerical weather models now include the stratosphere (altitudes of 15 to 50 km) and often also part of the mesosphere. However, there are still several key features of the stratosphere's dynamics and variability which models still fail to reproduce accurately. The project uses theory, observations and models to better understand the fundamental processes involved and pave the way for an improved modelling.