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the melting point and mechanical deformation due to powder densification and compliance to a (cold) build plate. These processes give rise to material microstructures quite unlike wrought materials and that
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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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independent strategies (metagenomics, bioinformatics, synthetic biology) to determine microbial function from sequence data. Since this project is highly interdisciplinary, we are seeking applicants from
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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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signals design and processing, and mutlitmodal sensing. The project welcomes expertise in robotics, serial communication protocols and microprocessors, signal processing, and finite element modeling, and
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processes over such an extended time range is a formidable task for conventional molecular dynamics. We have developed a mathematical technique for simulation of phonon transport in nanomaterials based
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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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NIST only participates in the February and August reviews. Localization of proteins to bilayer lipid membranes (BLMs) is a complex but fundamental cellular process. The mechanism of binding varies