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, resource allocation decisions are taken at a high frequency. Due to high complexity of the decisions as well as uncertainty of the system parameters, traditional solver based approaches are not well suited
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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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the geometry of disk-jet system, the redshift, the known properties of the central engine, the spectral properties and classifications, the parsec-scale radio structure. He/she will determine whether the 'good
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materials derived from biomass, mainly plant-based. He or she will collaborate with numerous researchers and engineers within the laboratory who are specialists and managers of various polymer
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study high quality perovskite materials, obtained by vacuum growth, and controlled in-situ with extremely sensitive characterization techniques. The candidate will conduct experiments based on optical
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computational research. In particular: • A high-quality imaging platform • A dedicated biocomputing hub that guarantees reliable data storage, management, and advanced analytical capacity. Our laboratory is
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-researchers, experimentalists, and theoreticians, and its research activity is supported by around sixty engineers, technicians, and administrative staff. The laboratory welcomes a large number of undergraduate
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medicine. The laboratory benefits from a large network of national and international collaborations and access to cutting-edge technological platforms, including advanced microscopy, high-throughput
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to the team on national high-performance computers (e.g. Jean Zay @ IDRIS, ADASTRA @ CINES) to carry out numerical simulations. The doctoral student will be registered at the École Doctorale d'Astrophysique