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3d colloidal model system. Background information: https://paddyroyall.github.io/padrus/Work_amoeba.html Publications of interest : https://paddyroyall.github.io/padrus/Publications.html Systems in
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Additional Information Eligibility criteria The candidate must hold a doctorate degree in fluid mechanics or related topics. Skills required: Experimental Fluid Dynamics, Physics and modeling of Turbulence, 3D
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to the development of an innovative microphysiological system dedicated to modeling human beige adipose tissue organoids in a controlled metabolic environment. The candidate will design and implement advanced 3D
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, the energy efficiency of buildings is a major challenge. Building envelopes, designed to protect occupants from external climatic variations, play a key role. Over the past 50 years, numerous models have been
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-doc follows on from a PhD thesis completed at the TIMC laboratory, in collaboration with the Annecy Genevois Hospital Center. The thesis focused on developing biomechanical models of the faces
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the experimental development of an approach to the 3D characterization of organic crystals. The approach is based on thermo-microscopy, combined with multidirectional observation, allowing for in situ, 3D
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, they will take a leading role in one of the activities. Throughout the project, the main tasks will include: -Assessing the theoretical performance of the system through modeling, -Developing and training a
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an approach based on 3D imaging and numerical simulation. The objective is to support the development of the most "infiltrable" ex-PIP matrices by characterizing the spatial organization of these porous media