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, health care, and nuclear security applications. No instrument today directly measures all decays in a sample with sufficient energy resolution to uniquely identify each radionuclide. NIST is developing a 4
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research in high-impact science and engineering fields that utilize vapors, liquids, and aerosols. Our experimental scientists focus on developing fundamental measurements and novel methodologies that can
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Sorbent materials are candidates for many industrial and sustainable development applications, including carbon capture, hydrogen and methane storage, gas separation and purification, and catalysis. However
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remain undiscovered. We are interested in developing new approaches (e.g., engineered microenvironments, mixed species cultures) for expanding microbial culture capabilities, as well as evaluating culture
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reactions related to energy transformation, advanced manufacturing, security, and the environment. Projects focus on the development and application of real-time, in-situ, advanced measurement capabilities
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) and superconductors (WSi, MoSi, NbTiN) for single-photon detectors, all of which are developed at NIST. In addition to device processing and electrical and optical characterization, we are interested in
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these challenges, the Fire Research Division of NIST’s Engineering Laboratory is developing the next generation of AI-enabled firefighting decision-support systems. Our goal is to deliver real-time, computationally
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-eddy simulation and direct numerical simulation of the phenomena. Topics of interest include algorithm development numerical combustion, scientific visualization, and data analysis. key words Buoyancy
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are developing the next-generation deployable, calibration-free Doppler thermometers. The Doppler broadening of spectral lines relates gas temperature to SI-defining physical constants and immutable gas
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to this information offers unique possibilities for the development and validation of the next generation of models of molecular interface formation on multiple scales, ranging from molecular dynamics simulations