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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
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particular, grating MOTs of diverse species like Li, Sr, or even molecules offer paths toward making new sensors. Our motivation is making a cold-atom based vacuum standard (CAVS) that also doubles as a vacuum
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transmission electron microscopy (TEM) and in situ atomic force microscopy (AFM) studies of how these slip structures evolve on pure Al single crystals and follow-up work on Cu is underway. Such studies provide
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. AM research is inherently multi-disciplinary, and our team collaborates with leading researchers and technical experts throughout NIST and beyond to realize the full spectrum of techniques for AM and
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of the difficulty of producing membrane protein crystals of the quality required for high-resolution x-ray or neutron diffraction studies. Numerous approaches involving surfactant-based systems exploiting
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tools to enable early and accurate diagnoses of disease as well as studies to elucidate mechanisms and networks in complex biological systems. Project areas include biochemical/molecular biology process
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Laboratory, Materials and Structural Systems Division opportunity location 50.73.11.C0581 Gaithersburg, MD NIST only participates in the February and August reviews. Advisers name email phone Li-Piin Sung
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of expansion and the completeness of differentiation is important to both efficient manufacturing and to product safety. Time-lapse microscopy of living cells allows the quantification of changes in dynamic