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-based research on immersive modeling and the integration of auralization tools into the design process. The full-time positions span four years and are funded according to standard SNSF regulations. Upon
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processes. They are supervised by Prof. John Lygeros in collaboration with Dr. Efe Balta from Inspire AG and Prof. Alisa Rupenyan from the Zurich University of Applied Science (ZHAW) . Project background
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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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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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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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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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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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physics, or nanoscience who wants to pursue cutting-edge research at a world-class level. Your tasks Within a collaborative project between the Swiss Federal Laboratories for Materials Science and
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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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of specific magnetic nanographenes using on-surface synthesis investigation of their electronic and magnetic properties using scanning tunneling microscopy/spectroscopy and atomic force microscopy decoupling