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by ATi/Innovate UK and Rolls Royce and is fixed-term to June 2029. You will join a world‑leading programme advancing experimental and numerical methods to predict the impact performance of composite
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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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proof-of-principle repetition-rate and staging experimentation. The successful candidate will perform duties that include developing/using particle-in-cell computer codes hosted on local and national high
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to develop a program of work investigating how brains use internal models of task and world structure to enable flexible goal-directed behaviour. The experiments will involve recording and/or manipulating
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maximise graphite lifetimes under irradiation, in unfamiliar AMR gaseous and liquid coolants. This post directly supports the Graphite Selection & Design programme, by developing and performing the novel
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, focusing on high-fidelity none-nearest neighbour entangling gates while addressing hardware overhead and thermal load in superconducting quantum circuits. The successful candidate will develop new
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duties of the post include: Conduct in-depth simulations and analysis to model and understand the performance of the Diamond-II accelerators for both single and multi-particle effects; develop and apply
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with the ability to meet deadlines and produce publishable research. Experience with deep learning applications in seismology, using high performance computing (HPC) environments, field experience with
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-performance computing, human disease genetics—particularly neurological or neurodevelopmental disorders—noncoding variant interpretation, and genetic therapy approaches. As part of the MRC Centre of Research
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high-performance computing experience and expertise in human genetics, therapeutic approaches, or neurogenomic research. As part of the MRC Centre of Research Excellence in Therapeutics Genomics, you