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Microscopic and Spectroscopic Characterization in Engineered Polymeric Materials NIST only participates in the February and August reviews. The purpose of this research is to develop advanced
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NIST only participates in the February and August reviews. Knowledge of fluid thermophysical properties is vital for applications in industry, metrology, and environment. The tools of statistical
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. A key component of the project is high sensitivity magnetic scanning microscopy of these nano-objects, most likely using SQUID magnetometers. We are seeking a postdoc with background in scanning
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material properties and evolves as a function of deformation. Accurate measurement of the crystallographic texture is the key to understanding how the material will respond during forming of parts
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: Developing computational methods to propagate quality issues, such as uncertainty, from upstream data sources to downstream digital objects. This propagation is crucial for ensuring the overall trustworthiness
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limited output of these devices is well suited to measuring long open-air paths and the combs themselves are becoming robust, compact, and transportable. Here we seek to employ frequency combs
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of methane, ammonia, and nitrous oxide and DCS offers the ability to simultaneously measure multiple gases in a field environment. Not only is this indispensable for testing gas mitigation strategies, but
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NIST only participates in the February and August reviews. The roll out of high-speed, low-latency communications networks is expected to drive economic growth through automation while creating new
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but inaccurate, leading to overconfidence in position data.This fundamental issue is becoming more important as localization microscopy matures, requiring not only novel methods but also reliable
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spectra and to suggest new avenues for experimental study. As the number of atoms in a molecule increases, calculations become correspondingly expensive. One means of addressing this problem is through