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PhD Studentship: Robust quantum control for quantum error correction The development of fault-tolerant quantum computing is one of the most coveted aims of quantum technology. It will bring about a
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will be strongly developed over the course of the studentship. This scholarship will also facilitate opportunities for the student to present their findings at national and international conferences, as
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level, with sub-metre precision? This PhD will develop next-generation foundation-model-driven urban perception systems that fuse: high-resolution satellite imagery, aerial data, street-level imagery (e.g
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applications we also need to know the cross sections at different temperatures and, thus, we need to properly account for the thermal motion of the target nuclei. Due to these issues, we need to develop a
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to implement for the entire network. To address these challenges, the project aims to develop a novel, population-based indirect damage identification system, leveraging data collected on instrumented railway
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cryoprotective agents (CPAs). Overcoming these challenges is a major unmet need in biomedicine. This interdisciplinary PhD project aims to develop AI-driven approaches to discover safer and more effective CPAs by
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developed over the course of the studentship. This scholarship will also facilitate opportunities for the student to present their findings at national and international conferences, as well as participate in
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between things, developing the mathematical and computational foundations for optimal information transfer between surfaces and volumetric current distributions in complex scattering media. The research
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these pathways can be harnessed for future treatment development. The successful applicant will join a friendly, research-active group which is part of the wider Section of Virology at the University