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Field
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methods for acquiring NMR and optical signals for studying living organisms. NMR techniques applied to living organisms (in vivo MRI and NMR) allow, by distinguishing different fluids, tissues, or molecules
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questionable one is the fluid seabed hypothesis since it neglects the shear properties of sediments and rocks, and hence the interface waves (SAW) that propagate on the seabed. Since SAW contribute to noise and
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debris flows. The aim of this project is to develop a unified constitutive model to describe these debris-ice mixtures, which will link solid and fluid behavior regimes, taking into account possible phase
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et al., Physical Review Fluids, 6, 064201 (2021). [2] A. Vilquin et al., Physical Review Letters, 130, 038201(2023). Microscopic living systems are strongly non-equilibrium, chemically reactive systems
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in the global energy economy, interface phenomena in multi- phase fluids remain poorly understood and their understanding requires substantial theoretical developments. These developments are all
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). The LEGI carries out a wide range of activities with a common core of competences: research in fluid mechanics and transfer. A PhD position is available with following objectives: • Develop a novel two-phase
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project to study and numerically simulate multiphase fluids applied to volcanic processes. The research activity will involve different subjects: - Numerical analysis of partial differential equations
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atmospheric science or fluid dynamics or with a focus on wind energy or any relevant discipline Specific knowledge Required: • Strong background in turbulence theory and modeling • Knowledge of atmospheric
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(wave propagation in complex fluid and solid media). Thesis context : The design of industrial structures made of heterogeneous materials is based on increasingly powerful numerical tools. However, these
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-pressure flows, more particularly in supercritical regimes. The applications of supercritical fluids are numerous. For example, CO2 supercritical fluid extraction is a clean and safe alternative