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development of thermo-hydro-mechanical and chemical models (THMC) to simulate the circulation of fluids and their interaction with the surrounding rocks to reconstruct the concentration processes of metals
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-et-fluides-… This work will be carried out as part of the European ERC 'CohPa' project, as part of a collaboration between the d'Alembert laboratory in Paris, the birthplace of the Basilisk software
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to alteration by liquid seawater-derived fluids. As a consequence, the geochemical behavior of commonly used isotopic systems (e.g., Sm-Nd, Lu-Hf and Hf-W) in such environment has yet to be understood in order
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. The activity will be carried out within the “Muscular Dynamics” team, headed by Franck SCHNORRER. As the laboratory is made up of several nationalities, English is essential. This interdisciplinary project is an
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Materials and Energy Storage). They will benefit from a dynamic research environment with access to the laboratory's experimental (cleanroom) and computational platforms. Micro-supercapacitors are a promising
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-profile international workshops, training activities, and conferences. Potential secondment periods in clinical and partner research labs for interdisciplinary exposure. Collaboration in a dynamic
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characterisation techniques, and statistical data analysis. The candidate must have a master's degree in Physics, Chemistry or Materials Sciences. They must be motivated and dynamic with strong abilities
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customized spinning disc to assess cell dynamics, polarized fluorescence microscopy of actin networks, super-resolution and smart microscopy. The project is being carried out in close collaboration with
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equilibrium), and cis-regulatory variants that transiently reach intermediate frequencies (mostly reflecting runaway dynamics or possibly direct positive selection). Extensions of this theory are possible