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abrupt magnetic field deflections, called switchbacks (SBs), in the solar wind. Due to their ubiquity in the inner heliosphere and their relative near-absence near Earth orbit and beyond, SBs
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, NASA) mission made the intriguing discovery of very frequent and abrupt magnetic field deflections, called switchbacks (SBs), in the solar wind. Due to their ubiquity in the inner heliosphere and their
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blades with ceramic matrix composites (CMCs), which combine lightness, thermomechanical strength, and damage tolerance depending on the choice of the various constituents that compose them. Replacing
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, with far-reaching consequences for multi-messenger astrophysics and black hole astronomy. The HENBoS project is part of this rapidly developing context. The strategy is based on high-performance
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interactions with the ocean and the atmosphere. The properties that characterize it have been established through the analysis of satellite observations over a scale range from 10km to approximately 1000km, and
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the agri-food industry. Based on preliminary work, two types of structures, hollow capsules and (nano)structured composites, have been selected as representative of the primary and secondary cell walls
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by fostering large-scale, interdisciplinary collaborations through an original and collegial organizational model. They aim to stimulate novel collaborations and contribute to the emergence
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. To complete this multi-scale approach, we have more recently been integrating the dynamics of the system. The aim of this project is to build a machine-learning ternary interatomic potential for the W-Cu-H
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nanoparticles to films. The transfer of electronic excitation energy (EEE) – hereafter referred to as exciton - between identical, nearby chromophores on the nanometer scale is the mechanism responsible
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properties, its direct use in high-performance applications remains limited. FLIGHT addresses this gap by developing eco-friendly processes to transform lignin into composites, membranes, and insulation panels