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reconstruction using Fourier domain optical normalization." Light-Science and Applications 5: el 60389, 2016. http://dx.doi.org/10.1038/Isa.2016.38 Henn MA, et al: "Optimizing the nanoscale quantitative optical
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variety of nanoscale measurement and manipulation techniques, ranging from scanning probe microscopies, such as atomic force (AFM), scanning tunneling (STM), and nearfield optical (NSOM), to sample
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for chemistry, physics and molecular biology. This project takes advantage of how we can combine optical microscopy, single photon counting, and laser fluorescence methods to probe/measure the folding of single
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mapping of bandgap and optical excitations. Current efforts at NIST aim to further develop the PTIR technique and apply it, in collaboration with several groups, to answer outstanding questions in
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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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://www.nist.gov/measuring-cosmos/airborne-lunar-spectral-irradiance-air-lusi-instrument NIST Stars https://www.nist.gov/programs-projects/nist-stars Astrophysics; Radiometry; Optics; Infrared astronomy; Satellite
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of probiotics, or prevention of microbially induced corrosion (MIC) of physical infrastructure. [1] P. Parmar et al., “Mitochondrial nanomotion measured by optical microscopy,” Frontiers in Microbiology, March
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-throughput characterization methods include spectroscopy, optical and scanned probe microscopy, scattering, reflectivity, ellipsometry, and contact angle measurements. See http://www.nist.gov/mml/polymers
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their structure-property relationships with support of a comprehensive metallographic laboratory, including optical microscopy, SEM, and TEM capabilities. We are looking to expand our network of collaborators by