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of DAS to detect transient tectonic deformations, such as slow earthquakes, in order to improve our observation capabilities of the large subduction fault in Chile. Three DAS instruments have continuously
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Computational complexity in adiabatic quantum computation AI to boost quantum technologies (e.g., machine learning for quantum error prevention/mitigation/correction) Quantum machine learning Quantum cloud
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variants in inborn errors of immunity. Job Description Primary Duties & Responsibilities: Information on being a postdoc at WashU in St. Louis can be found at https://postdoc.wustl.edu/prospective-postdocs-2
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-Technology-Co-Optimization: STCO), AI-driven data analysis and process assessment, packaging-specific PDKs & ADKs, or inline testing & fault analysis (3D)? If so, you are in the right place! What you will do
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Information, Quantum Computing, Quantum Communication, Quantum Control, Quantum Sensing and Metrology, Quantum Error Correction and Mitigation, Open Quantum Systems, and Applications in Quantum Chemistry
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: 1. Quantum Information Theorist · Research Focus: Develop novel theoretical frameworks for atom-based quantum computing, including but not limited to: o Quantum error correction, fault tolerance, and
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resource optimization, scalable computing techniques, fault resilience, and advanced AI applications. This role offers unparalleled access to ORNL’s world-leading computational resources, including
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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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Trainees, National Trainees, Interns and Visiting Researchers, as applicable; conduct fundamental research on (hybrid) quantum computing algorithms (e.g., error detection/mitigation techniques, quantum
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models already exist in the literature, these models are typically driven by motion captured from skin-mounted markers, which introduce errors from soft-tissue artefact. By integrating ultrasound with MRI