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research along the entire semiconductor value chain and on tailor-made synthetic diamonds. Whether high-frequency circuits for communications technology, voltage converter modules for electromobility, laser
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German business schools for research. We aim to create a real impact through our research, contributing to solving humanity’s greatest challenges. Existing members of the business school publish regularly
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Your Job: Development of a physical solid-state cathode model and simulation of cathode performance Mathematical optimization of the model parameters using laboratory measurements Preparation and
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a region with a high quality of life Performance-related remuneration according to the collective agreement of the federal states (TV-L) as well as a company pension plan with VBLU Diverse
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production for additive manufacturing, to the analysis of the final machined components, for example high-precision gears. This is how we shape the requirements of tomorrow. What you can expect from us
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far below the diffraction limit. The main tool to reach such high resolution is spatial-mode demultiplexing (SpaDe). In most practical situations imaging systems are preceded by complex media, e.g
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frequency and circuit design 3+ years’ experience in 2.5/3D electromagnetic simulations and RF circuit design Excellent knowledge of high-frequency technology and electromagnetic field theory Advanced
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of the strongest German business schools for research. We aim to create a real impact through our research, contributing to solving humanity’s greatest challenges. Existing members of the business school publish
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theory and many-body techniques, transport and response theory, atomistic and molecular spin dynamics, high-throughput and high-performance computing. Additional areas of interest include, but are not
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. The aim is to explain experimentally observed metastable behavior and to identify strategies to minimize or control such effects. The simulations are performed on the JURECA high-performance computing