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(EBSD, EDX, SAXS, TEM) and ex situ/in situ nanoindentation-based techniques (micro-tensile/compression). The insights gained from this investigation will be crucial for optimizing existing Mg-RE alloys
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advanced microstructural characterization (EBSD, EDX, SAXS, TEM) and ex situ/in situ nanoindentation-based techniques (micro-tensile/compression). The insights gained from this investigation will be crucial
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techniques (micro-tensile/compression). The insights gained from this investigation will be crucial for optimizing existing Mg-RE alloys and will lay the groundwork for the development of digital twins and new
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for new quantum computing algorithms. It will rely on statistical structure learning represented by knowledge graphs and efficient low-rank tensor compressions. We are looking for: A completed scientific
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change in ultrafast optics pushed, among others, by DESY, one of our research topics focuses on the development of ultra-short pulse Ytterbium lasers employing multi-pass cell post-compression. In close
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Ytterbium lasers employing multi-pass cell post-compression. In close collaboration with leading experts at Ecole Polytechnique, the University of Paris-Saclay, France and the Helmut-Schmidt- University
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heat pump systems. During the last months, our research group has constructed two novel test rigs: A reversible compression high-temperature heat pump / Organic Rankine Cycles & a reversible absorption
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compiled into a single, reasonably compressed PDF file and sent via email to burger@tum.de. Please use "Application for Ph.D. Position 2" or "Application for Post-Doc Position 2" as the subject line and