72 structures-"https:"-"https:"-"https:"-"https:"-"https:" positions at University of Oxford
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to work within one of, or across, the four research themes: Learning with Structured & Geometric Models, Low Effective-dimensional Learning Models, Implicit Regularization, and Reinforcement Learning
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-High and Extreme-High Vacuum environments. A growing focus of the role is the design and analysis of lightweight composite structures, particularly ultralight carbon-fibre systems for advanced physics
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to advance understanding of diversification, ownership structures, and welfare effects in financial markets. The post holder will contribute to the project’s research agenda by undertaking theoretical
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will operate with a high degree of autonomy, shaping campaign structure, optimisation approaches and budget allocation to maximise ROI and support recruitment objectives, while providing expert guidance
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autonomously, and making decisions that influence the safety and long-term condition of an internationally important estate. About You Chartered membership of a relevant construction-related organisation (RICS
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year. The project focuses on experimental investigation of structural and dynamic properties of colloidal monolayers driven out-of-equilibrium. The successful candidate will join an ambitious research
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team, construction professionals, and other University stakeholders to ensure the successful delivery of the Sherrington Refurbishment Project. The ideal candidate will have strong intellectual and
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: Chartered status with a relevant professional body (RICS or CIOB) with experience in building surveying and project management Strong technical knowledge of traditional and modern building construction and
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-wide AI network, develop a coherent external presence, and create the structures that help researchers collaborate more effectively. You’ll shape how Oxford presents its AI work to funders, policymakers
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Innovate UK to advance highly reproducible human in vitro models. These systems combine patient tissue with microfluidic technologies to recapitulate tissue structure and function while reducing reliance