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of very high energy particles (VHE) and that they are likely sources of (VHE) neutrinos. Understanding where and how particles are accelerated in these extreme environments has thus become a key question
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, particle accelerators and detectors, as well as technical research and development and related applications for energy, health, and the environment. The facility has significant technical capabilities
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particle detectors, as well as technical research and development and associated applications for energy, health, and environment. The laboratory has important technical staff (approximately 280 engineers
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-particle phase-field approaches. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR6634-CHRVUR-062/Candidater.aspx Requirements Research FieldPhysicsEducation LevelPhD or equivalent
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research laboratory of the CNRS and Aix-Marseille University, with around 180 researchers, engineers and PhD students. The laboratory studies subjects ranging from particle physics to astroparticle physics
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. The ANTARES ANR project aims to develop BAW resonators with superior quality factors in the 8-24 GHz range, to be included in 6G radio-frequency filters. For this application, one partner of the project has
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extreme or poorly documented conditions. In parallel, a reliable state of charge (SoC) estimation strategy will be implemented. It will rely in particular on the implementation of Kalman filters and AI
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using laser diagnostics, including: Flow visualization via Particle Image Velocimetry (PIV) Flame structure imaging via OH Planar Laser-Induced Fluorescence (PLIF) Wall temperature measurements via Laser
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particles - in promoting inflammation and fibrosis, and work to identify specific biomarkers of exposure and associated risks in human and mouse models. Develop and evaluate therapeutic strategies to target
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physics. Scientific description Diamond is a remarkable material for various technological applications. Its compact and regular crystalline structure enables its use in diverse fields such as particle