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components from major off-the shelf providers like Thorlabs/Newport Experience with multi-photon microscopy or other non-linear optical techniques Experience in image processing and analysis with ImageJ/Fiji
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ionizing and non-ionizing radiation, and its use mainly in medical applications. The major areas are magnetic resonance imaging (MRI), radiation therapy, X-ray physics, and nuclear medicine. The MR physics
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chemistry, nucleic acid technology, and state-of-the-art biophysical methods (spectroscopy, live cell imaging and nanotechnology) to address cutting-edge questions in biology and meet medical challenges. Our
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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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critical processes such as protein synthesis, photosynthesis as well as aspects of plant physiology, including growth, development, and stress resilience. Optimization of organic nitrogen supply and relevant
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several metabolic routes. It thus affects critical processes such as protein synthesis, photosynthesis as well as aspects of plant physiology, including growth, development, and stress resilience
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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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complexes using coherent X-ray diffractive imaging at a free-electron laser. This PhD position will focus upon the tools of structural analysis. More specifically, the PhD student will learn to process X-ray