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supports US Semiconductor Manufacturing in overcoming various qualitative and quantitative measurement challenges especially over large areas, as is needed for effective manufacturing process control
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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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for critical applications that require qualification and certification—increasingly require that computational models and in-situ monitoring of such processes be experimentally validated under highly controlled
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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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Description We work with scientists in other NIST laboratories to develop tools for computer simulation and analysis of magnetic systems at the nanometer scale. Model verification is achieved by comparison
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process control measurements, and utilizing appropriate statistical analyses to understand the assay results and their uncertainties. This process should lead to improvements in the comparability and
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designs. In addition to fabrication and characterization of these measurement tools, we also develop new readout schemes, signal and data processing, control systems, and biomimetic surfaces to improve
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Microstructure of Structural and Functional Ceramics for Additive Manufacturing, Energy Conversion and Storage NIST only participates in the February and August reviews. Control of microstructure
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operation would be of highest importance. optomechanics; optomechanical; sensors; mechanical resonator; quantum control; frequency conversion
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offers enhanced neutron interference contrast. We have also recently implemented control of neutron orbital angular momentum and are exploring its use as a spatial filter and multiplexer/demultiplexer