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of this thesis will therefore be to explore the properties of ice pack dynamics at kilometer/sub-kilometer and sub-daily scales based on these new modelling approaches, and more specifically the FloeDyn code
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to thermal boundary layers requires collaborating with the PhD student, who will undertake direct numerical simulations (DNS) using in-house codes to analyse heat transfer enhancement under spanwise wall
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Code34094Street141 rue de la CardonilleGeofield Contact City Montpellier Website http://www.igf.cnrs.fr/index.php/en/ Street 141 rue de la Cardonille Postal Code 34094 E-Mail cedric.leyrat@igf.cnrs.fr STATUS: EXPIRED
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accelerator physics • Python (or C++, Fortran) coding • analytical skills • basis of data analysis • a high level of communication skills, both oral and written (French and English required) to be able
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. Their results will be convolved with advanced radiative codes to calculate fluxes and multi-messenger spectra. These simulations will also be supplemented by kinetic simulations of particle acceleration in
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" (ARMS) code, running on high-performance computing centers. The simulation domain will consist of a restricted portion of the solar atmosphere. The doctoral student will have to explore the simulation
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using 3D MHD numerical simulations with the ARMS code. For the first time, such a model will self-consistently generate induced jets in a realistic magnetic topological configuration, including polar