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Field
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be based at the University of Manchester, in collaboration with Rolls-Royce plc. It will utilise the world-leading electron microscope facilities hosted by Manchester’s Electron Microscopy Centre and
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motivated and enthusiastic and keen to push the boundaries of what is currently possible when imaging with an optical microscope. Combing the latest in optical developments with the recent surge in AI
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Dortmund, we invite applications for the Research Group Analysis of Microscopic BIOMedical Images (AMBIOM): PhD Candidate (m/f/d) The position is part of the DFG-funded project: ComplexEye - a 96/384-well
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Dortmund, we invite applications for the Research Group Analysis of Microscopic BIOMedical Images (AMBIOM): PhD Candidate (m/f/d) The position is part of the DFG-funded project: ComplexEye - a 96/384-well
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can occur that are very different to the macroscopic world. Our group develops methods to measure and ‘see’ this atomic detail using some of the world’s most powerful electron microscopes. We apply
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, networking and sensing. Photonic integrated circuits (PICs) are the optical equivalents of electronic chips. Microscopic waveguides guide light across a chip to perform a multitude of functions — at the speed
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–brain axis, the project combines behavioral and physiological measurements with microscopic analysis of gut tissues. This integrated approach will reveal how enrichment impacts both body and brain with
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that can be tested directly against large-scale viral genomic data. The central challenge of this project is to connect microscopic evolutionary mechanisms—mutation, selection, and ecological feedback
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scanning electron microscope (SEM) ESRF Synchrotron: high-resolution diffraction Selection process Candidates will have to submit the following documents: Detailed and updated CV Cover letter Transcripts
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spectrometry Experience in constructing molecular networks Ability to work with microscopes, including electron microscope Competences in the field of bioinformatics, in particular: knowledge of the R program