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on accurate understanding of physical processes that affect level populations and radiation transport in plasmas. In our research of very hot plasmas we perform precise calculations of basic atomic and
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Description Research opportunities are available to develop and advance measurement methods required for current and future semiconductor manufacturing processes. Areas of particular interest include
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. In this project, we are developing metrology needed for the synthesis, processing, and characterization of low-dimensional materials to enable reliable nanoscale device development and manufacturing
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the fundamental structure-property and processing-property relations that will enable these materials to provide the necessary performance in the wide spectrum of applications envisioned. For example, quantitative
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measurements from incident electrons through to detected X-rays Spectrum processing (particularly low energy lines) Weights of lines and other critical physical parameter measurements Measurement optimization
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process control applications in the nanomanufacturing and semiconductor industries. Our research focuses on the miniaturization of SPM sensing mechanisms (e.g., active cantilevers), high-speed MEMS scanning
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Measurements that define the electrical properties of materials such as metals, foils, metallic paints, glass coatings, and silicon wafers are of increasing importance for silicon photovoltaic processing
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301.975.4579 Description As the demand for high resolution, high content imaging increases, the cost and challenges of acquiring, storing, processing, and analyzing today’s very large imaging data sets are even
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@nist.gov 301.975.8993 Description Protein or peptide hormones control and regulate diverse physiological processes and are important targets in clinical labs for diagnosing disease. There is a need to
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) and superconductors (WSi, MoSi, NbTiN) for single-photon detectors, all of which are developed at NIST. In addition to device processing and electrical and optical characterization, we are interested in