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inviting applications for a PhD Student (f/m/x) in the field of Theory and Methods for Non-equilibrium Theory and Atomistic Simulations of Complex Biomolecules Possible projects are variational free energy
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for the pioneering "2nd Life Metal Components" project. This long-term initiative, funded by the Werner Siemens Foundation with € 13 million, is dedicated to developing cutting-edge methods for the upcycling of metal
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3D optical access for more advanced spectroscopy schemes. These vapor cells will be the core component in atomic gyroscope and magnetometer products being developed at Q.ANT. For fabricating
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. The aim is to develop strategies for potential applications in information technology and quantum technology. A cleanroom for component processing and a variety of modern analysis methods are available
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of heart function. Your work will focus on the parallel numerical approximation extending our model realized in the parallel finite element system M++ and continue our interdisciplinary research
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. The aim is to develop strategies for potential applications in information technology and quantum technology. A cleanroom for component processing and a variety of modern analysis methods are available
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understanding of transport systems spanning microscopic, mesoscopic and macroscopic levels. Of particular focus will be automated planning methods that leverage emerging data and novel metrics that embed ethics
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Your Job: The aim of this project is to fabricate individual 1T1R elements and small 1T1R crossbar arrays in one or two layers in the BEOL area of silicon chips and to characterize them electrically
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PhD project: The genomes of basically all living organisms on our planet are invaded by genetic elements called transposable elements (TEs). These TEs can be considered as parasites in our genome
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quantification, model-order reduction, or multi-fidelity methods. The primary fields of application are life science, medicine and health, earth observation and robotics. Consequently, a MUDS student will learn