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for spin quantum dot-based qubits, hybrid QD-cavity systems, and flip-chip technology integration. The project's primary focus is on exploring fast and high-fidelity readout techniques for quantum dot spin
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scientific and industry partners. The candidate will support our master students, publish in scientific journals, and participate in conferences. Your profile You are a highly motivated and dedicated candidate
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our master students, publish in scientific journals, and participate in conferences. Your profile You are a highly motivated and dedicated candidate with an MSc in Energy, Mechanical, or Electrical
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, in close collaboration with our interdisciplinary team and external scientific and industry partners. The candidate will support our master students, publish in scientific journals, and participate in
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translate his/her research ideas to tackle these challenges, in close collaboration with our interdisciplinary team and external scientific and industry partners. The candidate will support our master
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to translate your own research ideas to tackle these challenges, in close collaboration with our interdisciplinary team. As part of this process, you will support our master students, publish in scientific
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teaching activities and group services of the Blockchain and Distributed Ledger Technologies research group and mentor Bachelor and Master students in topics in her/his area of
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couplings. It promises to push the boundaries of constitutive and multiscale modeling for these materials. Main roles and responsibilities: Research in this project involves a synergistic combination of
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external scientific and industry partners. As part of this process, you will support our master students, publish in scientific journals, and participate in conferences. Your profile You are a highly
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PhD Student you will be registered in the Institute of Geology in the University of Bern and your main work will be shared between PSI and Empa. During your 4-year PhD study you will: Synthesise and