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the improvement of measurement science to reduce uncertainties associated with the power rating. Furthermore, as photovoltaic cells and modules age in the field under operation, various degradation
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insight into microbial communities in their unperturbed state. This project will use in situ advanced measurement techniques such as flow cytometry, quantum cascade laser infrared (QCL-IR) microscopy, and
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to the design, construction, and operation of high-performance buildings that maintain good indoor air quality and use low levels of energy. Specifically, the goals of this research are to (1) develop methods
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. These resonators are being applied to mass and force sensing, inertial sensing, biochemical sensing, and quantum-limited measurements. New tools are also being developed to better understand the physics
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NIST only participates in the February and August reviews. Manufacturing optimized devices that incorporate newly-emerging materials requires predictable performance throughout device lifetimes
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, robotics), cyberinfrastructure (e.g., databases, high-performance computing, collaboration tools), and humans (e.g., scientists, engineers, students, managers). The recent interest in Explainable AI (XAI
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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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and human breath). This project focuses on the development of advanced sensing components-individually or within sensor systems-that can help to push performance to new levels, thereby impacting
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are seeking researchers to contribute to the development and application of advanced measurement and automation techniques for exploring processing-structure-property-performance (PSPP) relationships in
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) to develop a high-throughput technique to screen new materials for high frequency performance. As a first step, the Associate will focus on ferroelectric materials and transition metal dichalcogenides