76 computational-physics-"https:"-"https:"-"https:"-"https:"-"UCL" positions at Imperial College London
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datasets and tools. While the role is computational, you will work closely with experimentalists and engage with real industrial case studies, ensuring that developed methods are robust, interpretable and
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. Should you have any queries regarding the application process please contact Ms Graziela de Nadai, Section Administrator, g.denadai@imperial.ac.uk Application Materials Required: Further Info: https
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help create the next generation of doctors and scientists—benefiting patients and populations globally. We are seeking a highly motivated individual to join our team as Programme Administrator
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We are seeking an ICT based Technical Delivery Manager, working as part of Research Computing Services at Imperial to help us deliver the forthcoming Research Excellence Framework 2029 (REF 2029
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to apply: Submit your application via our Apply webpages: www.imperial.ac.uk/study/apply/postgraduate-doctoral/application-process/ . When applying, please use the following details: Search course/Programme
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supervisors Dr. Andrew Scott (imaging physics), National Heart and Lung Institute/RBH and Professor Denis Doorly (computational modelling), Aeronautics, Imperial. The research will develop our computational
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You will engage in cutting-edge translational research that develops computational models for assessing cardiac biomechanics and for predicting outcomes in cardiac diseases. This includes (1) a
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The role will engage in cutting-edge translational research that develops computational models for assessing cardiac biomechanics and for predicting outcomes in cardiac diseases. This includes (1) a
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of Industrial Control Systems (ICS) and Cyber-Physical Systems (CPS) to cyber-attacks. The post is based in the Department of Computing at Imperial College London. This is a leading department of Computer
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at the intersection of theory, computation, and high‑fidelity simulation, the successful candidate will contribute to the development of a novel ensemble-based framework for analysing driven perturbations in wall