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Innovant particles and radiation sources produced by LAser plasma interaction – ILA
Particle and radiation beams are commonly used in our daily life. For example, electrons are accelerated and deflected in the cathode tube of television or computer screens. Higher-energy electrons slowing down in targets with high atomic number produce X rays by the so-called Bremsstrahlung process
Real-time dynamics in strongly correlated mesoscopic systems – DYMESYS
The initial objectives of this project are firstly to build numerical theoretical tools to describe the non-equilibrium transport through a quantum dot in Kondo regime and more generally correlated mesoscopic nanostructure. Secondly, we aim at characterizing experimentally by transport probes the
Laboratory convection experiments with internal, non-contact, microwave generated heating, applied to Earth’s mantle dynamics – TERRA-MWH
The first objective of this project is to develop a novel, specific MW generator type, firmware controlled from an embedded system, and to use it for mixed convection experiments. In convection experiments, a certain number of parameters (viscosity, density) of the experimental fluids need to be mod
Beijing(Pékin) -Wuxi-Toulouse-Erlangen-Le Mans collaboration on Time dependent Electronic dynamics in Molecules And Nanosystems – PWTELEMAN
The major goal of this project is to deliver an original and unique toolbox of routines for the description of irradiation dynamics from short time excitation up to long time relaxation. The final product will allow treating non-adiabatic coupling between electronic and ionic degrees of freedom in a
Quantum Experiments with Superconducting Circuits – QuExSuperC
Superconducting quantum circuits with Josephson junctions have shown in the last decade very rich and successful quantum experiments. They clearly appeared as the most promising solid state scalable quantum system for quantum information processor. These superconducting circuits behave as artificial
HIgh Dimensional Entanglement – HIDE
Quantum information is a new and fast developing field that originated less than 20 years ago, and that aims at exploiting the quantum properties of nature for communication and computing. Quantum physics opens up radically new paradigms for information processing and communication with no analogue
Neutron Interferometry as Test for Standard Model and Newton Gravitational Forces – AXION
The proposal addresses some important questions, which are at the forefront of particle and nuclear physics and concern the analysis of possible deviations from the Standard Model (SM) of particle physics. As a tool for the test of the SM we propose to use quantum interference experiments with the n
Research and development of pure and Yb3+- activated nonlinear optical (NLO) borate type crystals for the realization of new compact and tunable high-power visible solid-state laser sources based on frequency conversion processes. – BORATESYB
In accordance with the current trends in international laser research, the aim of this project is to identify and develop innovative solutions for the realization of compact and high-power DPSS (diode-pumped solid-state) laser systems with efficient emission in the green spectral range. The most eff
Quantum phases of random interacting systems – Quapris
The proposed program considers the influence of disorder and interactions in quantum systems regarding their low-energy physical behavior and their entanglement properties. Recently, an intense activity has been devoted to the problem of disorder and localization phenomena. However, a proper treatme