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We are seeking two postdocs to collaborate on developing a near-quantum-limited microwave amplifier for readout in superconducting quantum computers. One position will focus on nanofabrication
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model design and analysis as well as statistical model parametrization and validation techniques. This Postdoc position is part of a five-year research program funded by the Wallenberg Foundation, aimed
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a postdoc fellow at the AMBER programme you will get unprecedented medical, biological, and methodological capabilities, with a profound potential impact for Europe’s next generation of research and
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techniques and data analysis to provide a more integrated picture of life processes in the context of health and disease. To be a postdoc fellow at the AMBER programme you will get unprecedented medical
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capabilities at the beamline, is also considered as a merit. Qualifications A PhD in physics, solid state chemistry, or similar, obtained within no longer than 3 years from the application submission date
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This postdoc project aims to address a critical challenge in quantum computing: errors in superconducting qubits caused by cosmic radiation, which cannot be corrected using existing methods
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(Physics, Applied Physics, Nanotechnology, Computer Science, Engineering, or equivalent), obtained no more than three years prior to the application deadline (according to the current agreement with
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Ref no: ORU 2.1.1-03882/2025 We are currently inviting applications to the doctoral programme in Economics, which leads to a doctoral degree and includes participation in the national WASP-HS
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, computational materials science, computer science, or a related field, awarded no more than three years prior to the application deadline*. Background in physics-based battery modelling and/or machine learning is
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advancing, interdisciplinary field at the intersection of toxicology, biomedicine, exposomics, high-throughput screening, and computational science. It aims to develop mechanistic understanding of how