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accelerate progress toward quantum computers? Are you interested in working on problems at the intersection of scientific computing, applied mathematics, and quantum physics, with the support of competent and
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, information, and systems need to be protected for a long time to come. Encrypted information stored today could be decrypted in the future using quantum computers ('Store now, decrypt later'). This also poses
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We invite applications for several PhD positions in experimental quantum computing with superconducting circuits. You will work in the stimulating research environment of the Wallenberg Centre
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quantum physics/chemistry, inorganic and materials chemistry, solid state chemistry or physics. · Good laboratory skills and interest in experimental research. · Programming skills for modeling and data
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will computationally explore catalyst materials for synthesizing different types of hydrogen storage molecules. Using advanced quantum mechanical calculations, you will develop multi-scale models
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assignments Your tasks will be to carry out research using advanced theoretical and computational methods within quantum mechanics and statistical physics with the aim to study novel materials synthesized
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-scale systems that enable the transition from today's symmetric to asymmetric crypto solutions of the future. The idea is to create a quantum-safe, efficient and automated PKI (Public Key Infrastructure
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superconductivity, mesoscopic phenomena and nanotechnology (for more info see http://ekmf.fysik.su.se ). The current project is focused on the development of future superconducting quantum electronics and
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that can be used for novel memory components; Circuit technology developed for quantum computing. The long-term goal of the project is to develop nanophotonic on-chip devices for integrated sensing and