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images. However, the current limitations of desktop computers in terms of memory, disk storage and computational power, and the lack of image processing algorithms for advanced parallel and distributed
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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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inorganic and organic mass spectrometries (MS), implementing multi-use sample processing streams and developing novel chromatographic-MS and solid sampling-MS instrumental couplings to comprehensively
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of neutron beams, and its exploitation in neutron-based quantum information processing. Experimental and theoretical proposals are solicited which develop improved techniques for atom or neutron interferometry
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appreciated with recent studies demonstrating the role of the human gut microbiome in surprising areas of human health (i.e., blood pressure) or the water column microbiome in biogeochemical processes
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Description Electromagnetic techniques can provide a means for rapidly analyzing or processing biochemical samples in a manner that can be readily scaled up to handle large numbers of samples in massively
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computer vision and machine learning. Our computational methods development has three primary goals. The first goal is continued support of expert-driven biomolecular structure determination by NMR, with
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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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Description We are using innovative processing to develop novel superconducting materials with enhanced properties for quantum circuit applications. Critical elements for development of these materials
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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