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Field
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to complex 3D underground geometries. The research will be conducted in close collaboration between BedrettoLab run by ETH and the underground test facilities Hondrich run by armasuisse. The project spans
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Mathematics, with a strong background in probability theory and complex analysis. Skills in differential geometry are also required. The thesis topics will focus on constructive field theory for conformal field
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. First, it will develop high-fidelity CFD models of methane dispersion in representative environments, including idealised test cases and realistic geometries relevant to energy and environmental
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of time-varying photonic metamaterials. First-principles mathematical modeling of optic-wave physics in canonical geometries under space-time-varying polarization responses. Computer programming and
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algorithms suitable for multi-static and distributed geometries. Understanding the performance limits of such systems, including sensitivity to synchronisation errors, geometry, transmit time, and partial
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explore how geometry, wettability, and fluid properties can be harnessed to achieve passive and energy-efficient liquid manipulation. The candidate will combine experiments and theoretical analysis
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is small but mighty. Working together with Leonardo UK towards immediate real-world applications in an operational environment, you’ll design and create intricate nanoscale geometries and combine
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high‑fidelity CFD across laminar, transitional, and turbulent regimes, including rotor and near‑wake benchmarks. Demonstrating scalability and generalisation across geometries, inflow conditions, and
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confined geometries - Advanced X-ray scattering methodologies - Integrated experimental and computational approaches 💡 Why join us? You’ll work in tightly integrated experimental–theoretical teams, gaining
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focus of NuTeC targets the radiological mapping of different geometries of sources, contaminated surfaces and characterizing of hot spots via mobile probes and more recently also with gamma cameras. In