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Team (CDT), and possibly to the Bordeaux University Campus for collaboration with the Exa-SoFT research and software development teams. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre
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, the recruited researcher will contribute to the development of a novel time-resolved fluorescence lifetime measurement approach, in close connection with methods based on single-molecule brightness analysis
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at interfaces and in the bulk. The work will involve operando electrical and optical characterizations, spatially resolved analyses of performance and degradation mechanisms, and the development or adaptation
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of the nuclear fuel cycle • Knowledge of uranium and fluorine chemistry • Ability to use multiple material characterization techniques (XRD, NMR, EPR, IR and Raman spectroscopies…) • Intellectual rigor and
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multiple species co-exist in sympatry. Among some sympatric species, a parallel evolution of dorsal color pattern has been observed (Llaurens et al. JEB, 2021) and substantial heterospecific interactions
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, including the development of a unique training approach for HL-LHC and SKAO staff focusing on the use of large scale cyber-infrastructures, supported by SLICES-RI, as well as enhanced interactions with
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development for 3D characterization of crystal shapes: - An existing thermal-optical-microscopy stage should be modified/improved allowing observation of the crystals along multiple axes, and thus the 3D
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nonlinear inverse Compton scattering and from extreme beam-multifoil collisions (eg in the E-332 experiment at SLAC). The project will include the development of advanced measurements and detectors