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provide detailed information on local deformation mechanisms at the microscale, while numerical simulations and data-driven approaches will enable the development of predictive models capable of linking
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detailed information on local deformation mechanisms at the microscale, while numerical simulations and data-driven approaches will enable the development of predictive models capable of linking
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process & fluid optimization -- Development of a multi-objective optimization methodology to simultaneously determine the optimal cycle architecture, its operating parameters, and the most suitable working
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registered at the MIMME Doctoral School (https://mimme.ed.univ-poitiers.fr/ ). Institut Pprime is a dedicated research unit (UPR) of the CNRS. Its scientific activities span a broad spectrum ranging from
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partners specialized in the synthesis of POSS cages, the characterization of porous materials, and molecular modeling. The reduction of carbon dioxide (CO₂) emissions and the development of clean energy
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the minimum and maximum magnitudes of past regional earthquakes. One of the key challenges of the FaSiRé project is to determine the age of regional deformations, taking into account the possible evolution
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reactions. The recruited QUANTASTIC PhD student will: -Contribute to the development of an experimental setup, -Develop and evaluate different kinetic models, including runaway scenarios, -Work in close
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ultrasound, Laboratoire d'imagerie Biomedical, LIB , https://www.lib.upmc.fr/ ) and nanoparticle engineering ( PHENIX Laboratory https://phenix.cnrs.fr/ ). The LIB is located in the Centre de Recherche des
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as well as new theoretical tools. Its mission is to provide excellence in scientific research and development, and it maintains strong links with industry. As part of a collaboration contract between
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. Photoacoustic sensing (introductory video: https://youtu.be/2f3V0DQNLYg ) is based on a transformation of absorbed optical energy into ultrasound waves, when a transient optical excitation is used. The optical