-
of nonlinear dispersive equations and their discretization. The objective will be to establish new robust and efficient schemes for the simulation of quantum fluids dynamics, to perform their numerical analysis
-
ultimate aim will be to exploit THz QCLs frequency combs (FCs) as nonlinear sources, coupled with optimised cavity-coupled coherent detectors. QCLs are practical miniaturized lasers at THz frequencies. FC
-
nonlinear inverse Compton scattering and from extreme beam-multifoil collisions (eg in the E-332 experiment at SLAC). The project will include the development of advanced measurements and detectors
-
of the 2005 urban riots in France (https://doi.org/10.1038/s41598-017-18093-4 ). It will draw on data concerning these riots, the 2007 urban riots in the Ile-de-France region, and the Yellow Vests movement
-
research. We offer a unique opportunity to lead cutting-edge investigations into emerging phenomena such as sliding ferroelectricity, ultra-low-threshold nonlinear photonics, and exciton engineering. This
-
axes: Waves and quantum physics; Photonics; and Nonlinear Physics, Complex Fluids and Biophysics. The projects developed around these themes cover theoretical, fundamental and experimental aspects as
-
at the forefront of nanophotonics and 2D materials research. We offer a unique opportunity to lead cutting-edge investigations into emerging phenomena such as sliding ferroelectricity, ultra-low-threshold nonlinear
-
in the field of nonlinear dispersive equations, with a particular focus on the dynamics of multisolitons. This research will be carried out within the framework of the ERC project 'INSOLIT,' led by