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, deformation mechanisms and mechanical performance, ultimately enabling more efficient design and optimization of advanced structural materials. [1] https://www.pepr-diadem.fr/projet/ammetis-2/ [2] https
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processes. The targeted configuration concerns Görtler vortices --- pairs of longitudinal counter-rotating vortices in boundary layers over concave walls --- structures relevant for aerospace and energy
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[3] or GaAs [4] suffer from major defects. Due to its indirect band gap, Ge has limited absorption efficiency. GaAs structures, on the other hand, have been produced on expensive III-V substrates
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promising technology for producing large and complex metal component. Although its potential has been widely demonstrated, significant challenges remain in optimizing the process to ensure the quality
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to elaborate new p-type perovskite ABO₃ structures with optimized thermoelectric properties, targeting a figure of merit beyond the state-of-the-art. The properties will also be measured by the wide range of ex
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French research laboratories working on thermophotovoltaic cells, photonic structures, and energy-conversion systems. This collaborative environment will provide the candidate with exposure to optical
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for diversification and optimization of energy recovery and conversion systems to ensure a stable and secure energy supply. Among potential energy sources, solar radiation, biomass combustion or gasification
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of the data in order to decode the mode of action of NPPs in the context of mammary tumorigenesis. The doctoral research program is structured around two integrated research axes: Axis 1: Colloidal
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of both the filament and the substrate, pressure, gas phase precursor composition) with the film chemical structure and the resulting optical properties will be carried out. The DC candidate will be trained
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necessary to robustly extract the various constituent elements of the comic book (detection of panels and speech bubbles, text recognition, segmentation, and character identification), and then to structure