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of collections of fluid particles distributed over a lattice is here preferred to solving non-linear PDEs. Processing a simulation in this way has some advantages. The low numerical dissipation allows
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accessible observables in attoscience. The postdoctoral researcher will carry out methodological developments and advanced numerical simulations to explore these ultrafast dynamics in exotic systems. -Develop
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data, etc.). Build, calibrate, and validate numerical hydrogeological models (e.g., MODFLOW, FEFLOW, or equivalent) adapted to volcanic aquifer systems. Perform hydrological scenario simulations
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to explore systems in which light (near-infrared) and acoustic phonons (20–300 GHz) can be confined simultaneously. Numerical simulation and optimization of acoustic and optical resonators Design and
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Simulation, starting as soon as possible, to support different projects and the supervision of doctoral researchers in the team. The Mobilab team is a dynamic group with broad research competences and
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variations in life history traits depending on birth conditions, variations that can persist throughout the life of individuals (Albon et al. 1987). A distinction is made between short-term numerical effects
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. This data is crucial for improving the numerical models aimed at simulating crystal morphologies and interfacial dynamics, as well as gaining a better understanding of the solidification mechanisms. Where
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: - Stress-related microfluidic experiments on yeast. - Experimental validation of a numerical ODE model of yeast behavior and its correction. - Qualitative analysis of the model and its bifurcations in
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deformation behaviors. This will be supported by numerical simulations developed by the LEM where nanoindentation simulations at the atomic scale will be performed by Molecular Dynamic (MD) as well as finite
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Eligibility criteria Numerical analysis and finite element method Solving anisotropic problems Website for additional job details https://emploi.cnrs.fr/Offres/CDD/UMR7340-SOPBAU-024/Default.aspx Work Location