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Adaptive dynamical approximations via parallel tensor methods
ADAPT is a methodological project whose main objective is the setup of a parallel computational framework for adaptive tensor approximations, to be used in high-dimensional problems, and in particular
Adaptive planar optics
The OPERA project is concerned with the study of the concept of metasurface in the visible and near-infrared spectral range on one hand, and in the microwave spectral range on the other
Advanced Laboratory X-ray Microtomography
For more than 25 years, synchrotron X-ray microtomography, especially in phase contrast or diffraction mode, has enabled the 3D characterization at the micro-meter scale of crystalline and amorphous m
Advanced Lattice-Boltzmann Understandings for Multiphysics Simulations
Numerical simulation is today an essential tool for engineering. The project aims at a qualitative leap in the field of computational fluid mechanics by developing new generation tools in fluid mechanics (for aerodynamics, aerothermics and aeroacoustics) based on an alternative paradigm to the classical approach based on Navier-Stokes equations, i.e. Lattice Boltzmann's methods.
Advanced MEtalLIZation Strategies for Heterojunction Solar Cells
The AMELIZ project sees in copper (Cu) a perfect alternative to Ag: the project aims to demonstrate and engineer the key materials and mechanisms governing plating selectivity as well as grid performa
Advanced magnetocaloric materials for adiabatic refrigeration
Low-temperature refrigeration becomes more and more important to a large number of scientific technologies that range from space telescopes to quantum computing and medicine. We suggest to significantly improve the existing technology of adiabatic demagnetization refrigeration (ADR) by performing joint fundamental and applied research on new refrigerant materials, in first palce frustrated magnets.
Advanced numerical Simulation for CAvitation: HPC, numerical and physical modelling, non equilibrium thermodynamics, large scale simulations
Investigations on the cavitation highlighted the great difficulty to correlate numerous results relative to a reliable prediction of the cavitation, whether it is in the field of hydraulic machinery,