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simulations - Fiber optics - Mass spectrometry and chemical imaging - English language: C1 (Common European Framework of Reference for Languages) - Team spirit - Dialogue and adaptability Website for additional
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simulation to develop an on-chip topological coherent demodulator for THz signals and other THz on-chip devices using topological photonic crystals. The devices will feature waveguides, beamsplitters, mixers
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phases) parameters of these heterogeneous materials. The primary objective is to utilize numerical simulations to determine the geometric parameters that yield desired optical properties. Specifically
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Post-doctorate position (M/F) : Exascale Port of a 3D Sparse PIC Simulation Code for Plasma Modeling
to exascale architectures an initial 3D simulation code developed as part of previous work [1]. This work will initially focus on scaling up (distributed memory), optimizing CPU algorithms (vectorization) and
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collected by the LIGO-Virgo-KAGRA detectors, or simulated for future detectors like LISA and the Einstein Telescope. The selected candidate will work under the supervision of Nicola Tamanini, head of
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using classical molecular dynamics. The work will therefore involve defining a model and then carrying out all-atom simulations to understand and predict the properties of the confined solution. We will
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simulations of post-merger remnants. Depending on the candidate's previous research experience and interests, there may also be opportunities to contribute to the group's theoretical developments related
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the necessary data for simulations (both geographical and legal), - Co-developing (narrative) scenarios, - Conducting simulations based on an existing model or improving it (FORESCEM), - Assessing the impacts
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reconstruction/quantification program Determining the performance of the assembled device Participating in activities to bring them up to standard - Simulation on the Polycap software of the device's optical
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of numerical instabilities in increasingly complex numerical simulations of the ocean, up to simulations of the global ocean including sea ice. Position in the LIP6 laboratory (PEQUAN team: Performance and