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of Oxford. The post is funded by United Kingdom Research and Innovation (UKRI) and is for 24 months. The researcher will develop 3D mapping and reconstruction algorithms with relevance to mobile robotics
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based at Oxford, utilising a dedicated plasma laboratory here to develop plasma diagnostics to map the energy-transport channels in plasma accelerators through temperature change; and explore novel optics
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here to develop plasma diagnostics to map the energy-transport channels in plasma accelerators through temperature change; and explore novel optics schemes required for beam-quality-preservation between
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, meaning that familiarity with one or more cloud-based platforms such as Google Earth Engine, Microsoft Planetary Computer and/or Amazon Web Server/similar is essential. It will also involve the development
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Full Time: 35 hours per week Fixed Term: 30 months We are looking for a Post-Doctoral Research Associate to map the early radiation of land plants using a combination of 3D imaging approaches
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ultra-high-field (7 Tesla) quantitative MRI. This pioneering Wellcome Trust–funded project will open a new window into the developing brain by mapping brain iron trajectories in neonates and infants with
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Wellcome Trust–funded project will open a new window into the developing brain by mapping brain iron trajectories in neonates and infants with unprecedented precision. The primary focus of this role will be
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on the pervious work from Dr Chen’s lab (Yang et al, Current Biology 2024), the project will explore the neural mechanisms that enable the brain to construct and update allocentric spatial maps from egocentric
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experimental analysis of optoelectronic properties. We will deploy a cutting-edge combinatorial approach, correlating atomic-scale resolution imaging and multiscale defect mapping approaches with macroscopic
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modelling and precision functional mapping with dense fMRI sampling to study the developmental trajectories of brain circuits implicated in compulsivity, and to identify the network topologies supporting