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gases, including the operation of magneto-optical traps, the production of quantum degenerate gases and optical trapping using optical tweezers/lattices. They will be expected to display initiative and
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in advanced bioimaging (including super-resolution, confocal and electron microscopy), genomics, proteomics, metabolomics, high-performance computing and field research. We promote research
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of Glasgow, School of Computing Science and KDES Research Group including contributing to publications of international quality in high profile/quality refereed journals, enhancing the research impact in terms
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of The University of Glasgow, School of Computing Science and KDES Research Group including contributing to publications of international quality in high profile/quality refereed journals, enhancing the research
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, state-of-the-art laboratories, high-performance computing, and industry collaboration through the London Institute for Healthcare Engineering. About the role We are looking for a highly motivated
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will apply a multi-disciplinary Team Science approach to deliver fundamental new insights into the role of S-acylation in cell physiology. The successful candidate will join an ongoing research program
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, state-of-the-art laboratories, high-performance computing, and industry collaboration through the London Institute for Healthcare Engineering. About the role We are looking for a highly motivated
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, state-of-the-art laboratories, high-performance computing, and industry collaboration through the London Institute for Healthcare Engineering. About the role We are looking for a highly motivated
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which insect chemosensory receptors are able to sense and respond to carbon dioxide. The research programme will provide broad insight into direct molecular responses to carbon dioxide and supply tools
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. Algorithms will in the first instance be designed for radio astronomy and validated at extreme scales, leveraging dedicated high-performance computing implementations. Technology transfer to magnetic resonance