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element of leadership and development, and the University systematically strengthens these capabilities to drive strategic change and achieve sustainable impact. In this role, you will further develop
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electron microscopy, atomic force microscopy, metal evaporation, wire bonding), performing computer-based simulations and modelling in COMSOL, physics of strongly correlated many-body systems. We offer you
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technologies with clinical practice, developing solutions that enable accurate and real-time diagnosis and therapies. Project background Polyethylene wear is a major factor affecting the long-term performance
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technologies with clinical practice, developing solutions that enable accurate and real-time diagnosis and therapies. Project background Polyethylene wear is a major factor affecting the long-term performance
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their careers in a diverse and inspiring university environment. We offer attractive employment conditions in an intellectually stimulating environment (employment category: POSTDOC 5). The position is initially
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that enable accurate and real-time diagnosis and therapies. Project background Polyethylene wear is a major factor affecting the long-term performance of hip implants, as it can lead to particle-induced
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senior lab members. The remaining 10-40% you will assist students and postdocs with their projects, e.g. helping design experiments and instructing them in the core technologies used in the lab. While
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fundamental elements of scalable quantum computing with spins qubits in silicon and germanium. More details are available from https://nccr-spin.ch. Linked to NCCR SPIN, a tenure-track assistant professorship
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" supported by the Swiss National Science Foundation. The NCCR SPIN is developing fundamental elements of scalable quantum computing with spins qubits in silicon and germanium. More details are available from