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to meet these demands. NIST also researches methods to improve physical environmental measurements made to complement or validate space-based measurements. The NIST effort is aided by specialized facilities
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Description Combining organic monolayers with semiconductor surfaces is of interest for many differing applications including molecular electronics, sensors, and bio-electronics. Monolayers on semiconductor
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@nist.gov 301.975.5551 Description Mathematical modeling is fundamental for interpreting measurements. In order to leverage its full potential in metrology settings, however, one must understand how models
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. Compressive sensing is a new approach where incomplete sampling under certain circumstances can be used to accurately recover the full data set--roughly translated into more information from less data
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parallel, low-cost analysis systems that do not rely on optical or aptamer-based labels. Before such systems can be realized, the electromagnetic response of biochemical samples must be understood in detail
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to consider multidimensional landscapes. The goal of this research project is to develop models that can be used to evaluate the stability and predict transitions as cell populations progress from pluripotent
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the researcher a unique opportunity to develop and test novel dosimetry systems for quantification of patient dose in radiotherapy, or dose delivered to products in industrial electron beam processing
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Description The translation of a mass spectrum into a chemical identification is often a very imprecise and error prone part of the rapidly expanding fields of mass spectrometry-based proteomics and
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the optical, mechanical, and electrical systems used in these experiments are welcome, and research projects can be formulated across a tremendous breadth of precision measurement activities. key words Watt
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frequency collective motions of biomolecular systems. These collective modes characterize the incipient motions for the large-scale conformational changes along the torsional coordinates responsible