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engineering disciplines such as fluid mechanics, heat transfer, dynamics and system controls, optics, metrology, and data science. Measuring the various dynamic physical phenomena during the fabrication
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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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, the resolution improvement can scale like 1/N with properly prepared states, where N is the number of photons in the state. While interferometry and other applications would benefit from high-N photon states
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; High frequency; Metamaterials; Microwave materials; Photonic bandgap; Magnetic resonance; biomagnetic imaging
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needed to have confidence in those measurements. We focus on genome-scale multiplexed measurements of nucleic acids and proteins, using approaches such as microarrays and ultra-high throughput “next
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are used to produce the products at high levels and high density, conditions that result in stress to the cells. To ensure the economic and safe production of biopharmaceuticals requires multiplexed
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NIST only participates in the February and August reviews. This program is designed to support the design, construction, and operation of high-performance sustainable buildings with good indoor
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impediments to meeting the desired manufacturing and performance standards. Digital twins (DT) are being adopted in the AM industry to optimize the entire manufacturing process and enable products with high
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and utilize equipment such as high- and low- field NMR/MRI systems and non-traditional systems such as single-sided magnets. In addition to this equipment, techniques such as finite-element modeling and
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is to measure to high accuracy the SI-traceable spectral energy distribution over the visible and near infrared wavelength range for a set of stars for use as flux standards for astronomy. In