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the dynamic rate of mass transfer across the interface. This project primarily consists of theoretical modeling and numerical simulations. However, a strong coupling will be maintained with
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using a multiscale numerical approach, from atomistic to large-scale thermomechanical modeling, coupled with micromechanical experiments (see figure below). The master internship and PhD thesis will
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, the candidate will design and optimise the key components of a disassembled loudspeaker (suspensions, magnetic motor, diaphragm) using analytical, numerical and experimental approaches. A second phase will focus
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-world error patterns: we therefore aim to go beyond the traditional depolarizing error model generally accepted in the quantum coding community. One therefore wishes to adapt existing decoding algorithms
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of transportation and energy. Its experimental and numerical modeling activities focus on various complex and multiphysical flows, including turbulence, two-phase flows, combustion, and thermoacoustics. Research
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Non-coding RNAs (ncRNAs) play a central role in gene expression regulation and in numerous cellular and molecular processes. Their dysregulation is implicated in various pathologies. This doctoral
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of numerical ice shelf models has recently been developed to study, among other things, the realistic behaviour of the dynamics of a floe assembly, based on a granular approach. The purpose
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, on the Futuroscope site, the PPrime Institute is recruiting a doctoral student to study the numerical modeling of overlapping piston ring seals in static, semi-static and dynamic operating conditions as part of
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of heat transfer and turbulence physics in wall-bounded flows through numerical simulations, data-driven modelling, and machine learning techniques. Key goals include optimising convective heat transfer
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silicon waveguides with a nanometric core. This work will include the development and optimization of simulation tools for the design of these waveguides, combining numerical results with simplified models