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, Quantum Physics Division opportunity location 50.68.92.B8346 Boulder, CO NIST only participates in the February and August reviews. Advisers name email phone Thomas Tupper Perkins tperkins@jila.colorado.edu
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to create cold atomic gases, like deceleration of atomic beams, atom trapping, sub-Doppler cooling, optical lattices, etc. Today we use cold atomic gases, often quantum degenerate systems, to study a variety
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water and aqueous mixtures (including electrolytes), atmospheric gases, mixtures with carbon dioxide, mixtures of molecules differing in size and/or polarity, and fluids such as water where quantum
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color centers for novel quantum sensing and information processing applications at the single photon level. Applicants should have experience in one or more of the following areas: nanofabrication
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RAP opportunity at National Institute of Standards and Technology NIST Advanced Instrumentation for Fundamental Electrical Measurements Location Physical Measurement Laboratory, Quantum
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@nist.gov 301.975.5954 Description Research opportunities are available to advance the measurement of fluid flow, airspeed, liquid density, and volume as well as the measurement and quantum mechanical
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RAP opportunity at National Institute of Standards and Technology NIST Conductivity and Resistivity of Materials Location Physical Measurement Laboratory, Quantum Measurement Division
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specific optical properties of interest to sensing devices, quantum material use as single photon sources, terahertz applications and photonic structures. The directed assembly of individual SWCNTs onto
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are developing machine learning-driven autonomous metrology research systems, with the goal of accelerating the development of self-correcting photonic and quantum sensor networks. These systems combine machine
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physical sensing, quantum science, communications, and dynamic spectroscopy. We have developed novel approaches to comb generation [1], spectral translation [2], and their use to interrogate cavity