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Edward Ryan Sisco edward.sisco@nist.gov 301 975 2093 Description This opportunity covers a range of research avenues focused on developing and increasing the use of chemometric techniques for the treatment
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NIST only participates in the February and August reviews. Research focuses on the development and application of advanced multi-detector separation science techniques. Topics include characterizing
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and stiffness degradation is essential in predicting potential failure modes and reduction in service life of concrete structures. Opportunities exist for (1) development of databases on material and
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double-crystal diffraction instrument combined with a high-power, demountable x-ray source and a vacuum compatible hybrid pixel area detector. Decades of development of instrumentation for cutting edge x
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conditions. For that purpose, Raman spectroscopy-enhanced indentation technique (RS-IT) is being developed at NIST which combined instrumented indentation with Raman spectroscopy to analyze in-situ
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. These small -scale projects offer opportunities across all aspects of an experimental program from simulation to operations and data analysis. key words cold neutrons; cosmology; neutron physics; beta decay
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focuses on developing and applying label-free optical imaging technologies to visualize structures and molecular compositions of organelles in cells and to map heterogeneities in tissues to enable
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well as updating their own model. Current logical frameworks are not flexible enough to manage the constant schema design changes that arise in healthcare and manufacturing systems. The eventual goal is to develop a
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Machine Learning-driven Autonomous Systems for Materials Discovery and Optimization NIST only participates in the February and August reviews. We are developing machine learning-driven autonomous
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that emit charged particles upon neutron capture. Research topics include method development, focusing on improved specificity, accuracy, sensitivity, and spatial resolution through detailed studies