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, metrology, and quantum information. Relevant reference examples as 2020: Kaufman et al., Science 345, 6194; Norcia et al., PRX 8, 041054; Norcia et al., Science 366, 6461 key words Quantum many-body systems
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dots as quantum sensors of displacement, an avenue of research that is still open. key words Optomechanics; Optomechanical; Cavity; Phonon laser; Photonic crystal; High-contrast grating; Optical cooling
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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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; and developing new measurement techniques or devices to characterize sources, detectors, and optical components at few photon levels. key words Single photon; Superconductivity; Quantum information
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, Curt Richter, Nikolai Zhitenev key words topological insulator; quantum anomalous hall effect; high-frequency Eligibility Citizenship: Open to U.S. citizens Level: Open to Postdoctoral applicants Stipend
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and for these systems is strongly pursued. key words Atom-based solid-state devices; Many-body physics; Nano-optics; Nanotechnology; Photonics; Quantum dots and wires; Quantum optics; Quantum processes
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Description Enriched silicon is critical for silicon quantum devices since the 29Si isotope is a leading contributor to qubit decoherence. Enriching silicon leads to long quantum coherence times (T2) measured
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RAP opportunity at National Institute of Standards and Technology NIST Cryptography Through the Lens of Quantum Information Science Location Information Technology Laboratory, Computer Security
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functionality and scalability. We are developing these systems utilizing silicon photonic devices with superconducting-nanowire single-photon detectors for applications in quantum information processing, loophole
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. Silver [email protected] 301.975.5609 Description Controlling the quantum state of individual electrons is a challenge central to many fundamental measurements and future computation architectures