170 phd-computational-intelligence-"University-of-Exeter" Postdoctoral positions at University of Oxford
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neurological function, including in rugby and snow sports. You should hold or be near completion of a PhD/DPhil in Biomedical, Electrical or Information Engineering or other relevant disciplines, and possess
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, under the direction of Prof. Sam Wolfe. It is essential to have a first degree in Linguistics, Modern Languages, Psychology, or a related discipline, possess or be very close to obtaining a PhD in
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an opportunity to be involved in analysing the quantitative data collected as part of the project. You will hold a relevant PhD qualification (or be close to completion), with sufficient relevant research
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group here About you Applicants must hold a PhD in Chemistry or a relevant subject area, (or be close to completion) prior to taking up the appointment. The research requires experience in inert
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immunologist with a strong interest in T cell biology and immune regulation. The ideal candidate will have: • A PhD (or be close to completion) in immunology or a related biomedical field
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new research methodologies and materials. You will hold, or be close to completion of a, relevant PhD. Experience in vertebrate experimental embryology (preferably in teleost fishes) and confocal
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properties at an atomistic, electronic and structural level. Applicants should possess or be close to obtaining a PhD in physics, materials science, or physical chemistry. They should be highly experienced in
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academics working on biogeochemistry in the Department. About you You will hold, or be close to completion of, a relevant PhD/DPhil, together with relevant experience. You will possess sufficient specialist
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full-stack approach to suppressing errors in quantum hardware. This research focuses on achieving practical quantum computation by integrating techniques ranging from hardware-level noise suppression
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renewable award. You will lead a programme of research in the molecular mechanisms of cardiovascular disease, that may include a range of approaches including targeted genetic murine models, primary cell