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prediction using diffusion models, genetic/evolutionary algorithms or even random algorithms (etc.). Binary and ternary phase diagrams under pressure will be explored. From the crystal structure generated, he
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design. This project will involve: A) the development of adapted experimental methods for performing dosimetry in the electron microscope and B) the development and application of new modelling methods
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criteria Expertise in one (or many) of the following subjects will be valued: data analysis, radio detection of astroparticles, air-shower and/or radio signal modeling and simulations, multi-messenger alert
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campaigns; - Process data; - Model using finite element simulations where possible; - Participate in various ANR LASERSHOWS projects; - Supervise trainee and assist PhD student; The person recruited will be
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on the development of analytical models and experimental studies associated with the necessary numerical simulations. The research is carried out within the framework of three teams specialized on complementary themes
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- Diagnostics (in Python) - Magnetic field and electric current density modeling - Study of energy conversion - Presentations and publications of scientific results. - Selection of high-cadence MMS data (SITL, 2
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of 6 permanent researchers, 1 emeritus, 3 postdocs and 6 PhD students. The team is involved in CP violation studies in B decays, in indirect searches for effects beyond the standard model, and in heavy