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temperature and velocity data to provide a complete picture of the physics and chemical structure of the environment within the fire enclosure. Measurements will be completed for a variety of fuel types and
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; imaging; interferometry; nanoparticles; gene delivery particles; biophotonics
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of measurements and simulations is increasingly used to improve the understanding of mechanical testing results and provides a means to advance the mechanical testing paradigm toward fewer, more complex tests that
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of novel optical methods for nanoscale dimensional measurements using the NIST 193 nm Microscope: a newly upgraded, custom-built, world-class high-magnification optical imaging platform optimized
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simultaneous measurements on individual particles making use of lab-on-a-chip technology. Techniques include microsecond flash photography (including fluorescence), image analysis, and electrical signals
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operating frequencies above 100 GHz are used in a wide variety of applications—examples include radio astronomy, climate monitoring, mm-wave imaging, and high-speed wireless data relays. The main method
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three-dimensional structure within a biofilm would provide information and insight into biofilm behaviors. This research opportunity involves using advanced imaging techniques coupled with quantitative
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patterning. Techniques such as quantitative fluorescence microscopy, time lapse imaging, image analysis, gene reporter cell lines, and flow cytometry will be used to monitor culture heterogeneity, consistency
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diffraction, x-ray absorption spectroscopy for the quantification of chemical short range order, and automated microstructural image analysis. The simulation approaches of interest include machine learning
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; X-ray absorption spectroscopy; X-ray imaging; X-ray photon correlation spectroscopy; Cold sintering; Flash sintering