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applications based on an exciting new paradigm in quantum optics: giant atoms. Giant atoms couple to light at multiple points, which gives rise to interference effects. The succesful candidates will, in
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the aim of developing useful applications based on an exciting new paradigm in quantum optics: giant atoms. Giant atoms couple to light at multiple points, which gives rise to interference effects
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, including pathogenic strains. The successful candidate will analyze how these compounds attack bacterial cells using advanced cell biological methods, fluorescence live cell imaging, fluorescence spectroscopy
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combine and develop protein engineering, synthetic chemistry and state-of-the-art biophysical methos (spectroscopy, live-cell imaging and nanotechnology) to address cutting edge questions in biology to meet
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conduct internationally renowned research in biomedical engineering, antenna systems, signal processing, image analysis, automatic control, automation, mechatronics, and communication systems. We offer a
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of Chemical Biology (ChemBio), we combine and develop protein engineering, synthetic chemistry, nucleic acid technology, and state-of-the-art biophysical methods (spectroscopy, live cell imaging and
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coding and decoding algorithms, inspired by a similar paradigm shift in wireless communications. The project is led by Professor Erik Agrell (IEEE Fellow) and funding is provided by a prestigious grant