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power electronic systems, we develop advanced multi-physics models/digital twins/virtual prototypes at the component and system level. For a new research project on advanced high efficiency magnetic
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physics and materials science. This research field capitalizes on the achievements in optomechanics, atomic physics and control theory. Project background We have openings in the areas of Inertial force
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of their spins and charges. Our scope is to study the fundamental physics of these materials with a focus on experimental basic research, yet including the perspective on the theoretical background and on
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and charges. Our scope is to study the fundamental physics of these materials with a focus on experimental basic research, yet including the perspective on the theoretical background and on
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and charges. Our scope is to study the fundamental physics of these materials with a focus on experimental basic research, yet including the perspective on the theoretical background and on
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Functional Theory (DFT), and coarse-grain DFT to run large-scale atomic simulations of the real structure of disordered solids. Your profile Project I MSc in Physics, Chemistry, Materials Science, Mathematics
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can both craft and lead new research projects and work collaboratively on team projects Excellent communication skills in English (the IDEAS team’s working language) We also would like you to bring
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, RF, mm-Wave integrated circuit design Tapeout experience is a plus Relevant industry experience is a plus Independent individual who can both craft and lead new research projects and work
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Independent individual who can both craft and lead new research projects and work collaboratively on team projects Excellent communication skills in English (the IDEAS team’s working language) Tapeout
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group creates artificial muscles and attaches them to a rigid skeleton with ligaments and tendons to create adaptable, complex robotic systems. To achieve design optimization, we first need a physically