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DTU Physics and DTU Construct. Our group is a global leader in the field of metals. We invented the synchrotron-based imaging technique Dark-Field X-ray Microscopy (DFXM) and previously 3D X-ray
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. Nature Physics20, 970 (2024)). You will also work on expanding our coherent imaging methodology to look at dynamics and phase switching in materials at the nanoscale (Johnson et al. Nature Physics19, 215
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segmentation of organs from medical images; generation of simulation-ready surface and volumetric meshes from segmentations; and modelling realistic boundary conditions, particularly the interaction between
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the prototype in real offshore wind planning and development processes in the North Sea Assessing transferability of the approach to other European sea basins Developing recommendations for integrating
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for catalysis of sustainable chemical processes. Visualizing Chemical Dynamics in Real Time Apply advanced atomic-resolution imaging and image analysis to uncover surface dynamics, reactivity and molecular
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at cryogenic temperatures. Perform spectroscopy and optical imaging of quantum emitters. Perform advanced coherent excitation of individual emitters with picosecond laser pulses. Perform quantum-optical
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Job Description Join our interdisciplinary team developing state-of-the-art 3D X-ray microscopy for life science applications. ‘Seeing is believing’, therefore at the DTU 3D imaging center we
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. Click on the “Apply now” icon at the bottom of this advertisement to apply. The application must include the following enclosures in Adobe PDF or Word format: Letter of motivation (max. one page) CV (max
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. The postdoctoral researcher will collaborate closely with an engineering team responsible for process integration and prototype development Expected start date and duration of employment This is a 2.5–year position
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for catalysis of sustainable chemical processes. Visualizing Chemical Dynamics in Real Time Apply advanced atomic-resolution imaging and image analysis to uncover surface dynamics, reactivity and molecular