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: - theoretical study, optical and electro-optical simulations, device designs - clean room fabrication including definition of process flows, and mask designs - experimental characterizations of passive and active
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activities will involve various advanced high-resolution mass spectrometers (Orbitrap, Vocus, …), optical techniques (fluorescence, optical tweezers,…), aerosol flow tubes and an atmospheric simulation chamber
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/autumn floods. The interdisciplinary SUPRAGRASS project addresses these challenges by developing operational tools based on remote sensing, ecosystem simulation, and stakeholder engagement. The aim is to
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spectroscopy (XPS), Ellipsometry and Raman spectroscopy • Experience in clean room microfabrication • Experience in electrical measurements of materials and memristive devices • Numerical simulation skills (e.g
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primarily focus on one or more of these parts. The successful candidate will develop numerical tools and/or theoretical models to model and simulate the behavior of a group of agents capable of chemical
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assemblies (microscopies, spectroscopies, DLS, etc.) - Static light scattering resolved in angle and wavelength on an available set-up - Comparison of experimental results with numerical simulations
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to develop new functional materials. It will use an approach that combines experimentation and simulation. This project aims to address societal challenges related to clean energy production. Tasks: Take
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‑chemical calculations on organic small molecules and π‑conjugated systems. • Conduct periodic DFT simulations to explore electronic band structures and transport. • Analyse charge transport, thermoelectric
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], and simulation-based methods [11]. This research will provide both theoretical and practical contributions to robust decision-making in fleet decarbonization, supporting the shift from pedagogical tools
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be the continuation of previous work, would use machine learning on a simulated data base to define the tool, followed by an application to real data from GRAVITY/VLTI (K band), MATISSE/VLTI (L, M, N