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Description Exploiting atom-based solid-state technology and nanotechnology for quantum technologies such as quantum computing, quantum simulators, quantum nano-optics, and nanoscale sensing requires
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Physics Letters 580: 120, 2013 Nanoporous materials; CO2 capture; Gas adsorption; Metal-organic frameworks; DFT; Theory and modeling; Computational thermodynamics;
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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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addition, the emerging "materials by design" paradigm places emphasis on the use the computation for the development and design of new materials. Candidates with an interest and background in computational
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understanding of the physics of the QAHE necessary to design and develop new quantum resistance standards. Additional applications in quantum information science (QIS) can be envisioned for robust QAHE devices
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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 Atom and Neutron Interferometry Meet Quantum Information Theory Location Physical Measurement Laboratory, Radiation Physics
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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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NIST only participates in the February and August reviews. The Alternative Computing Group at NIST has an ongoing program developing new metrologies to support emerging information processing
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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