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Applications are invited for a Postdoctoral Research Associate with expertise in optical spectroscopy, structural characterisation techniques and modelling applied to next-generation semiconductors
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particular emphasis on data from Rubin Observatory, 4MOST, ATLAS, Euclid. Projects may span a broad range of topics, including improving supernova modelling and standardization, developing and implementing
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institutions. You will lead the computational aspects of this exciting project by leveraging AI tools such as AlphaFold and developing novel deep generative models and/or large language models. The aim is to
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regeneration, leveraging state-of-the-art chemical biology tools and established tissue injury models, in particular, the use of versatile regeneration-competent zebrafish models and is funded by Academy
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researchers will extend and apply the ideas of active matter physics in biological contexts, developing theories and cell-scale and continuum computational models. The work will focus on identifying physical
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models of mechanotransduction. Research projects are highly interdisciplinary, aiming to integrate in vitro biochemical and cell biological techniques with in vivo models and clinical samples. Recent
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novel neuroprotective strategies. You will utilise in vivo rodent models of neurodegeneration in combination with sleep/circadian clock modulators to develop an in-depth understanding of consequences
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effects. You will contribute to the numerical modelling part of the project, which will benefit from novel element level and centrifuge testing experimental results. You will set up and validate numerical
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and numerical modelling, as well as the development and construction of a new mm facility, The Africa Millimetre Telescope, in Namibia. The successful applicant will be based in Oxford and work
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, activation, and effector functions in preclinical models of autoimmunity. This research is part of a broader effort to define how inhibitory receptors tune T-cell responses in health and disease, ultimately