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@boulder.nist.gov 303.497.3882 Description Josephson junctions can be used in circuits that perform logic operations in picoseconds and may enable high-performance, energy-efficient, cryogenic computers, provided
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of new and existing structures, (4) applying the Fiber Reinforced Polymer (FRP) retrofit design to improve the performance of existing structures, (5) studying the feasibility of using high strength
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the use of laser pumping and silicon micromaching. This proejct develops compact magentic sensors than combine high sensitivity and accuracy with vector field readout and manufacturability. We design novel
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employed. This involves the computational determination of 3-D features of a specimen from a series of their 2-D projections. By carefully preparing the specimen, designing the experimental acquisition, and
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for the world. Likewise, U.S. manufacturing depends on its 500,000+ machine tools that make precision parts. However, a major problem with these machines is that their performance, which degrades over time due
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, new measurements and ways for realization of efficient/high-performance electro-optical devices integrable to photonic and electronic circuitries. We offer a collaborative environment that couples
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) to develop a high-throughput technique to screen new materials for high frequency performance. As a first step, the Associate will focus on ferroelectric materials and transition metal dichalcogenides
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NRC Programs at National Institute of Standards and Technology This page provides specific information related to the NRC Research and Fellowship Program at NIST. Use the navigation on the left
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opportunities to interface with researchers at both NIST and at the National Institutes of Health (NIH). Reference Zabow G, Dodd SJ, Koretsky AP: "Shape-changing magnetic assemblies as high-sensitivity NMR
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experimentally. However, important challenges remain, such as transition-metal compounds and floppy or tautomerizing molecules. Determining the quantitative uncertainties associated with high-level predictions is