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Field
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), which specializes in surface chemistry and molecular adhesion, is collaborating with the NanoStructured Materials for Photonics (MNP) team of the Lumière Matière Institute (ILM) to develop a new
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Postdoctoral researcher (M/F), synthesis of crystal phase heterostructures by Molecular Beam Epitaxy
Starting Date 1 Mar 2026 Is the job funded through the EU Research Framework Programme? Horizon 2020 Is the Job related to staff position within a Research Infrastructure? No Offer Description Develop and
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project aims to develop and apply computational protocols to model the properties of the HFIP solvent and to investigate their influence on chemical reactivity. Develop and apply computational protocols
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system housing the two arms of the PET-SCAN system - Develop a simulation tool to optimize the prototype structure - Develop software tools for data acquisition and processing This work is being carried
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necessary for an operator or a group of operators to perform a work task” (Maline, 1994). These scenarios will constitute typical configurations, linking Organization-Skills-Tasks, developed from the results
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channels for LWFA. - Run and combine plasma simulation codes on national HPC platforms. - Develop multi-physics workflows by coupling different simulation tools. - Analyze and interpret simulation results
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developed high-sensitivity detectors to probe newly discovered anomalous quantum Hall effect phases in rhombohedral graphene. In particular, we wish to study phases that, due to interaction, exhibit
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by S. McPhillips (CNRS, LA3M – UMR 7298, Laboratory of Medieval and Modern Archaeology in the Mediterranean) and is funded by the French Agency for the Development of AlUla (Afalula, France), in
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develop reaction profiles. • Propose reaction mechanisms and catalytic cycles at the molecular scale. • Propose chemical modifications of the catalyst to lower the energy costs of storage/release reactions
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combine density functional theory (DFT), molecular simulations, and machine-learning force field (ML-FF) development to uncover the factors controlling NHC–surface interactions and to model realistic