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- INSTITUT MAX VON LAUE - PAUL LANGEVIN
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techniques, including atomic imaging of surfaces and bulk, nano-probe diffraction (4D-STEM), high-energy-resolution, and valence-level energy-loss spectroscopy, cryogenic microscopy, Lorentz microscopy and
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radiation beamline hands-on experience in X?ray microscopy techniques, X?ray diffraction or X?ray fluorescence working knowledge of image processing e.g. using machine learning German skills For further
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characterization of C and SiC fibers - Training on bench use (in particular heating techniques by Joule effect, laser diffraction, infrared imaging, pyrometry, preparation of micrometric samples, ...) - Technical
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diffraction, cryo-EM, and a wide range of other biophysical techniques. The group is located in close proximity to the MAX-IV and ESS facilities in Lund which accommodates state-of-the-art facilities
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Materials Science Center (GEMS). At the PETRA III synchrotron radiation source, Hereon jointly operates several beamlines. The Imaging Beamline P05 is optimized for micro- and nanotomography techniques with a
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. Advanced materials design and characterization will be pursued through various strategies. The candidate should have extensive experience in fabricating and testing prototype batteries, glove box operation
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are performed using the so called “Coherent Diffraction Imaging” approach. It allows a 3D imaging of isolated objects smaller than 6 μm in size. It has been used to study “objects” ranging from exoskeletons
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constituents of its microstructure. You will develop inverse-analyses of the in situ imaging experiments to extract the non-linear stress/strain relationships. You will design critical in situ X-ray and neutron
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space-based astronomical image slicing spectrograph. The goal is to create and apply a 'digital twin' of the as-built system to simulate and optimize its performance. Key responsibilities include
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synchrotron-based techniques to inform process development. The role requires a strong background in synchrotron characterization techniques, mainly three-dimensional imaging (microtomography and