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, including linear optical quantum computing, quantum metrology (e.g., Heisenberg limited interferometry), and fundamental physics (loop-hole free Bell measurements). We are particularly interested in utilizing
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on developing autonomous ML-driven systems for measurement, calibration, and control of quantum systems and quantum computing platforms. Working closely with scientists in the Physics Measurement Laboratory
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using them to demonstrate new applications in quantum information science. We have used radio-frequency interferometry to achieve ultra-sensitive high-speed single-photon detection [Applied Physics
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NIST only participates in the February and August reviews. A wide variety of projects are available for study. The central themes of these projects are (1) validation of quantum chemistry methods
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RAP opportunity at National Institute of Standards and Technology NIST Microscopically-Controlled Quantum Systems of Neutral Atoms for Many-Body Physics and Metrology Location Physical
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RAP opportunity at National Institute of Standards and Technology NIST Metrology and Prototyping of Wide-Bandgap Semiconductor Quantum Nanowire Structures and Devices Location Physical
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RAP opportunity at National Institute of Standards and Technology NIST Computational Electromagnetics Location Information Technology Laboratory, Applied and Computational Mathematics Division
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RAP opportunity at National Institute of Standards and Technology NIST Computational Investigations of Molecular Interface Formation from the Perspective of Cosolvent Preferential Interactions
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characterize complex fluids and their interaction with other matters. However, measurements require interpretation that is aided by computational fluid dynamics (CFD) and computational fluid particle dynamics
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Physics Letters 580: 120, 2013 Nanoporous materials; CO2 capture; Gas adsorption; Metal-organic frameworks; DFT; Theory and modeling; Computational thermodynamics;