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to the problem of thermal measurement at the nanoscale. This thesis is part of the ANTICHI (Advanced Nanoscale Thermal Imaging and CHaracterization Instruments) project, which aims to provide a versatile
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, transportation, and energy. Our work generally focuses on behavior modeling, instrumentation, and the study of the durability of the structures or products in question. A significant part of our research focuses
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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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using the KM3NeT detectors • Data analysis from SVOM instruments as well as images from the COLIBRI telescope • Participation in KM3NeT shifts and service tasks (calibration, construction, processing), as
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bench (optical, electronic and mechanical) and multiphysics analysis using high-performance on-site instruments (optical spectrum analyzer, 3D intensity profile, wavefront, RF spectrum, field polarization
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in several international workshops and conferences to present their work. The doctoral student will benefit from privileged access to the THEMIS instrument, as well as machine time allocated
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techniques, or a profile with initial training in biology/microbiology with a minimum of skills in physics and engineering (instrumentation, signal processing), with a strong desire to invest in engineering
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) that control the fate and the effects of trace elements and contaminants in the environment. To achieve the set objectives, the project will be supported by laboratory's instrumental facilities (including HPLC