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. The postdoc will be responsible for developing and validating DFT models to simulate the atomic-scale structure, stability, and reactivity of reconstructed ND surfaces, including hybrid sp²/sp³ systems and
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equations of motion via Hamilton's principle; theories of waves, instabilities, turbulence, and circulation; waves and mean flow interactions; and novel methods for ocean numerical models. - Formulate
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, visit https://www.biocean5d.org/ . The applicants will work on close collaboration with Jose M. Montoya, from CNRS. - Developing analytical theory and/or simulation models on the relative importance
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simulation software modelling the dynamic behavior of dislocations (DDD) in 3 dimensions, coupled with a spectral solver based on FFT. The procedures must analyze the simulated 3D microstructures to compare
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single fluid vortex and a liquid/gas interface in various configurations through theoretical/numerical modelling and stability analyses. The following configurations will be analysed : - a horizontal fluid
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the framework of the project. Qualifications and Team : We seek a researcher with demonstrated experience in perturbative modeling of LSS (in particular biased tracers of dark matter), analysis of simulated