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. This role focuses on the aerodynamic modelling of floating wind turbines and their dynamic response under realistic wind and wave conditions. You will conduct high-fidelity CFD simulations of floating
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materials. The role focuses on developing cutting‑edge simulation tools and contributing to bespoke high‑rate experiments within Oxford’s Impact Engineering Laboratory. You will be responsible
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designed for multiwavelength cosmological modelling. Once in hand, the candidate will use the simulations to explore novel analysis methods with the goal of applying them to data. Collaborative endeavours
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materials. The role focuses on developing cutting‑edge simulation tools and contributing to bespoke high‑rate experiments within Oxford’s Impact Engineering Laboratory. You will be responsible for: Advancing
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hold PhD (or close to completion) in Astrophysics, Space Physics, Aerospace Engineering, Applied Physics, or a closely related field. Previous experience with numerical modelling and simulation relevant
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simulate the impacts of drainage and rewetting on temperate peatland hydrology, carbon and vegetation dynamics. This will include using new datasets and high-resolution modelling developed in the MOTHERSHIP
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highly productive and ambitious member of the QUB and Rolls-Royce collaborative research team, investigating and using computational simulation methods to support structural design of next generation
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analysing Cortically-Embedded Recurrent Neural Networks (CERNNs) that simulate large-scale neural dynamics during cognitive tasks. These models integrate species-specific neuroanatomical constraints to enable
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. Knowledge of relevant topics in AI, such as training of contemporary models Downloading a copy of our Job Description Full details of the role and the skills, knowledge and experience required can be found in
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About the Role Post-doctoral research associate in Modelling X-ray Spectroscopies for the Nuclear Fuel Cycle working with the Oakley group, Department of Chemistry, School of Natural Sciences