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of failure strengths are needed to ensure reliability and maximize performance. We use numerous modeling approaches to explore the mechanical and electrical behavior of deforming nanoscale systems. Current
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NIST only participates in the February and August reviews. The Applied Economics Office (AEO) at NIST works closely with the NIST Community Resilience Program (CRP) and external collaborators
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, and complete products of combustion) will be performed. Comprehensive data sets of this type have not been previously reported for full-scale enclosure fires. The chemical data will be augmented by
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RAP opportunity at National Institute of Standards and Technology NIST Applied Optimization and Simulation Location Information Technology Laboratory, Applied and Computational Mathematics
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measurements at 18-digit accuracy using an optical clock network. Nature 591, 564–569 (2021). https://doi.org/10.1038/s41586-021-03253-4 [2] Chave, A. D. (2019). A multitaper spectral estimator for time-series
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gauge [1]. Based on a grating MOT of lithium [2, 3], our gauge delivers a zero-chain traceable measurement of vacuum down into the extreme-high vacuum regime (<1e-12 torr). While now theoretically
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NIST only participates in the February and August reviews. Photoelectron spectroscopy (XPS, AES, XAS) and microscopy (PEEM, LEEM, SEM, SPEM) are in high demand for exploring morphologically and
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of phase distributions, grain sizes, texture, and residual stresses in both as-built and heat-treated materials. Model results will both be informed by and feed into parallel work in macroscale
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images. However, the current limitations of desktop computers in terms of memory, disk storage and computational power, and the lack of image processing algorithms for advanced parallel and distributed
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include particle characterization (including protein aggregates) for biotherapeutics, and cell viability measurements for cell-based therapies and cell-based biomanfacturing. A key method is to perform