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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
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project focuses on the development of monolithic all-fiber laser systems emitting in the visible wavelength range, whose performance meets the requirements of industrial applications. The development
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complementary steps. First, simplified explanations exploit the encoding of complex models to perform partial logical tests on a representative sample. Second, approximation techniques overcome computational
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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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energies usually spanning from few tens of eVs to few hundred eVs. These ultrashort pulses serve as a powerful tool for studying light-matter interactions, functioning as either a 'pump' to initiate
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greatest impact on model performance. The student will also explore **advanced variants** of influence functions, such as the **Proximal Bregman Objective (PBO)**, which avoids the assumption of model
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interactions, dynamics and function of membrane proteins, protein folding and aggregation. The master internship and following PhD will be performed in close collaboration with the team of Yohann Boutte in
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to present their work. The doctoral student will benefit from privileged access to the THEMIS instrument, as well as machine time allocated to the team on national high-performance computers (e.g. Jean Zay
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(OTFTs) provide advantages in terms of low-cost fabrication and compatibility with flexible substrates. However, their commercial integration remains limited due to insufficient performance and stability
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the T4SS, test it through functional assays, and validate it using structural approaches. Main tasks Perform genetic constructions (cloning, mutagenesis, sequencing validation) and functional bacterial