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use a wide array of computational techniques to understand the performance of the best known oxide scintillators for these applications, examine if their performance can be optimised, and use
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). Secondly, impurity seeding of plasma to improve performance will further degrade component erosion/redeposition issues. Thirdly, this is critically tied to very high temperature operations (>800 C and upto
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This project will develop advanced computational and experimental tools to support the safe, efficient, and scalable manufacture of materials critical to UK and European security, with a particular
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, characterization and the development of miniaturized devices. Experience with multivariate analysis, computational methods or statistical techniques is highly desirable. The PhD projects are highly interdisciplinary
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, and environmental pressures, reducing physiological resilience and performance. Current microbiome therapies, such as faecal microbiota transplantation (FMT), highlight the potential of microbiome
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their wings for optimal performance. This PhD project will involve the design, fabrication, experimental validation, aeroelasticity modelling, and control of a small-scale wing prototype with a bio-inspired
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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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. Fusion power plants demand structural materials capable of operating at >650 °C with high radiation tolerance. Traditional computational materials design workflows excel in data‑rich systems (e.g. Ni & Fe
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Are you an outstanding and ambitious engineering or computer science graduate looking for the next challenge? Do you want to work at the frontier of artificial intelligence and robotics to enable
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crystallography4, and Dr Dominik Daisenberger at Diamond-I15 in high-pressure techniques5. With unique provision of training and resources, including on the state-of-the-art X-ray, neutron, and laser sources, it