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resources may be provided by the Jean-Zay supercomputer. Large language models (LLMs) and deep contextual embeddings (i.e., BERT and its variants) are trained on large corpora, usually extracted from various
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-resolution reanalyses). Once statistically calibrated, this relationship will be applied to large-scale predictors from climate models (ESMs) to generate regionalized simulations (i.e., at finer resolution
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for the HL-LHC experiments. This includes the rewriting and rethinking the algorithms to be run on heterogeneous platforms, i.e. systems where a traditional processor (CPU) is coupled with an accelerator (e.g
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of economically viable elements (i.e., He, H) within geothermal systems. Supervisors: Raphaël Pik (CNRS – Université de Lorraine, [email protected] ), David Bekaert (Université de Lorraine) Co
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Post-Doc- Combinatorial deposition of functional thin films by Spatial Atomic Layer Deposition (M/F)
focus on the development of our SALD system hardware and software towards a combinatorial deposition, i.e. where a gradient of properties will be present in the deposited films. He/she will be focused
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) of passive resonators (consisting of simple suspended layers) in static and dynamic modes, i.e. frequency response of the vibration amplitude and dissipation, will lead to the estimation of the mechanical
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aggregate formation [2, 3]. It is in this context that the proposed thesis topic falls. Very promising ligands, i.e. capable of removing copper from Cu-Aβ and stopping the associated ROS production, have
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, with conversion losses of the order of 1% in the THz range, i.e. only 10X less than electronic mixers [3]. It is therefore possible today to imagine a very broadband (0-1 THz) spectrum and/or vector
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of view, i.e. by establishing the glycolytic status of the cells through intracellular pH measurements for which we developed the methodology. Different environmental conditions in term of nutrients/oxygen
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the incorporation of up-conversion nanoparticles (UCNPs) developed at Softmat. Thulium-doped UCNPs can convert near-infrared light (i.e. 800 nm) into blue light, spectrally matched to the O2 probe '[Ru(bathophen)3)]2