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but not limited to: o Quantum error correction, fault tolerance, and resource optimization. o Entanglement dynamics, quantum control protocols, and hybrid quantum-classical algorithms. o Modeling and
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. The Schmitt Lab studies immune dysregulation in inborn errors of immunity. We are specifically interested in investigating the mechanisms leading to T and B cell dysregulation. In complementary studies, we
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: ORNLRecruiting@ornl.gov We are not accepting applications for this job through MathJobs.Org right now. Please apply at https://jobs.ornl.gov/job/Oak-Ridge-Postdoctoral-Research-Associate-TN-37830/1331751500
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are conventional and unconventional topological phases of matter, and quantum error correction codes and other quantum computing related topics. We invite theorists with backgrounds in condensed matter physics
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efforts to move the technology’s capabilities towards that of conventional digital data storage by developing and adopting existing bioinformatics tools for data encoding, decoding and error correction in
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National Aeronautics and Space Administration (NASA) | Greenbelt, Maryland | United States | 23 days ago
system, hyperspectral infrared satellite radiance data have been used extensively and they have proved significant impact on reducing model forecast errors and constraining atmospheric states. This NPP
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design of quantum platforms and models to improve upon existing error correcting codes, while leveraging platform-specific physics knowledge, be it in ultracold neutral atoms, trapped ions
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/Immunology at WashU. The Schmitt Lab studies immune dysregulation in inborn errors of immunity. We are specifically interested in investigating the mechanisms leading to T and B cell dysregulation. In
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communications Computing & Networking: QuMIMO, Quantum Error Correction, Multi-partite systems, Q Network Coding, HQCNN - Hybrid Quantum-Classical Neural Networks Security & Logic: QRL - Quantum Reinforcement
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. The specific focus of this position will be on the theoretical design of quantum platforms and models to improve upon existing error correcting codes, while leveraging platform-specific physics knowledge, be it