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RAP opportunity at National Institute of Standards and Technology NIST Enriched Silicon Quantum Devices Location Physical Measurement Laboratory, Nanoscale Device Characterization Division
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corrected for, the noise and drift can directly affect not only the initial calibration of qubits, but also the coherence times and, ultimately, fidelities of the quantum control and readout operations
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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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research. https://www.nist.gov/el/goals-programs/high-performance-building-systems References Ng, Lisa C. and W. Vance Payne. Energy use consequences of ventilating a net-zero energy house. Applied Thermal
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Graphene Metrology for New Intrinsic Quantum Electrical Standards and Device Technologies NIST only participates in the February and August reviews. The Fundamental Electrical Measurements group
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Curt Andrew Richter curt.richter@nist.gov 301.975.2082 Description Our research team is performing foundational experimental research to develop an improved understanding of the physics of the quantum
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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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RAP opportunity at National Institute of Standards and Technology NIST Materials for Quantum Information Applications Location Physical Measurement Laboratory, Applied Physics Division
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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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position or our work. Additive Manufacturing; High-Speed X-ray Diffraction; Phase Transformation; Machine Learning; Structure-Process-Performance Relationships; Nonequilibrium; Metastable phases; Physics