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work is anticipated in the areas of microresonator design, engineering biology/biomanufacturing, dioxygen imaging in 3D cell culture, and structural biology methods development. Knowledge of microwave
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to predict materials properties is essential to improve materials design methods. This research will focus on the development and integration of first principle calculations; atomistic simulations; and/or
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efficient. As part of the cryogenic detector development effort, NIST also develops the requisite cryogenic systems, which include both cryocoolers and cryostats. Relevant cooling technologies include pulse
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. Opportunities exist for (1) the development of simple yet accurate modeling approaches that enable rapid collapse analysis of large structural systems, (2) comparison and quantification of the progressive
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, plays an important role at NIST in the development and interpretation of new measurement techniques, as well as aiding the understanding of the behavior of new materials in existing measurements. In
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@nist.gov 301.975.4127 Description This research is centered on the development and application of analytical methods to the characterization of nanomaterials. Opportunities exist to study the composition
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accurate measurements during emergencies, such as those encountered in pre- or post-detonation scenarios. The nuclear forensics program at NIST focuses largely on analytical method development, new and
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plasticity, where genetic drift, transgene instability, or chromosomal rearrangements can alter product quality or yield over time. Understanding this genomic evolution is essential for assuring
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calculation of the thermodynamic and transport properties of gases for use as standards. Areas of particular interest include the development of next-generation standards for measuring temperature, pressure
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Description Research focuses on the chemical and physical mechanisms of and in situ diagnostic development for thermal chemical vapor deposition (CVD) and atomic layer deposition (ALD), with applications in