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quantum mechanical models Your Profile: Scientific Master degree or comparable degree in electrical engineering, computer science, physics, or similar field Basic knowledge in (integrated) circuit design
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Profile: Master degree in physics (or in a related subject) Background and strong interest in developing theoretical models and methods as well as in implementing numerical optimization techniques Interest
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reports Mentor students and contribute to teaching at RWTH Aachen Your Profile: Completed Master’s degree in chemistry, physics or related fields Previous eperience with magnetic resonance required
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international conferences Collaboration with other research groups Support in the preparation of third-party funding proposals Support in establishing the institute Your Profile: Master`s degree in physics
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engineering, computer engineering, computer science, or related fields Background in device physics and analog or mixed-signal circuit designs Strong skill in mixed-signal circuit designs (active filter
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mentoring of students Your Profile: Masters degree in Physics with excellent grades Fluent in written and spoken English High degree of independence and commitment Analytic problem solving capabilities and
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catalytic materials. Due to the poor time resolution of offline analytical methods, conventional try-and-error experiments are generally non-informative concerning monitoring electrode process transients and
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of superconducting qubits to quantify performance and identify limiting physical mechanisms Perform quantum device calibrations, benchmarking, and run quantum algorithms Presenting and publishing the research
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Geißelbrecht, our department researches and develops a wide range of topics related to chemical hydrogen storage along the entire process chain. In particular, issues in the field of the LOHC technology are