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computers to large-scale, fault-tolerant quantum computing. You will work on quantum error correction (QEC) protocols, which are one central and indispensable component in this endeavor. Your tasks include
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far, this treatment is mostly handled in two distinct phases: NISQ- with quantum error mitigation (QEM) and fault-tolerant regime with quantum error correction (QEC). You will research the combination
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of the occurrence of rare events, as well as model simplifications and associated a posteriori error estimate. This will mainly rely on the construction of optimal control strategies associated to the large deviation
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, converts errors into appropriate correction feedback, and feeds it back to the LLM promises significant improvements in this area. The aim of this master's thesis is to systematically evaluate
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: - Quantum computing with qudits, quantum error correction and fault-tolerance - Quantum optics of trapped ions and Rydberg atom arrays - Numerical tensor network techniques - Topological order and (de
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control, human-robot collaboration, and smart grids. For this reason, their design and deployment should be accompanied by a formal check of correct behaviour. The Research Training Group on Continuous
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at Fraunhofer MEVIS focus on capturing and correcting patient and instrument movements during diagnoses, treatments, and interventions. We welcome proactive applications related to our topic areas. We are happy