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are particularly interested in developing and characterizing hybrid quantum systems (interfaces between dissimilar physical media), suitable for quantum information purposes, and exotic sources of faint light
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attracted considerable attention for potential application in nanoscale devices, including beyond-CMOS electronics, quantum computers, chemical sensors, photodetectors, etc. Prospective advantages over
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For predicting thermochemistry of small main-group molecules, quantum chemistry is sufficiently reliable that it can be used to settle experimental disagreements and to provide critical data that are not available
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NIST only participates in the February and August reviews. Cavity optomechanics has been a powerful tool for investigating fundamental physics, including gravitational waves, quantum entanglement
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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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opportunities are available in developing integrated nanophotonic architectures and devices for realizing compact, efficient, accurate and dynamic quantum AMO systems-on-a-chip. By creating a set of scalable
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RAP opportunity at National Institute of Standards and Technology NIST High-Performance Cryogenics Location Physical Measurement Laboratory, Quantum Electromagnetics Division opportunity
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, further enabling adoption of cold atom sensors. Finally, we are exploring means of better coupling atoms and photonic components to achieve new routes to quantum-enhanced sensing, quantum simulation
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this opportunity, we will investigate the electronic properties of candidate quantum materials or organic (molecular) semiconductors. We will use and develop measurement approaches to determine key electronic
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multidisciplinary scientific interactions with state-of-the-art nanofabrication capabilities and advanced measurement tools. key words Quantum dots; Directed assembly; Light emitting diodes;Nanolaser; Field effect