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of the uncertainties encountered in the physical experiments. These computational methods have been applied to nanorheology in photopolymerization 3D printing [1], human breath research for forensic and clinical data
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This research aims to study the formalization of information processes and systems, using modern approaches and techniques from mathematics. Distinct entities, each having its own database, ontology, or other
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microstructural characterization, and opportunities focused on acoustic nondestructive evaluation of existing structures. We apply fracture mechanics and materials science principles to model data, furthering
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techniques to study hydrogen locations and dynamics in materials necessary for advancing the Hydrogen Economy. Detailed information on hydrogen locations and binding potentials in a lattice is extracted as a
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include the development of novel polymeric mechanical testing devices, novel adhesion blister testing devices, development of high-throughput screening devices, informatics, and data base development. key
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states that can preserve quantum information. key words Enriched silicon; Quantum information; Quantum devices; Single electron devices; Coulomb blockade; qubit; hybrid quantum devices; materials
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materials necessary for advancing the carbon capture technology. Detailed structural information will be extracted. This information provides insight into the chemistry and physics of CO2 adsorption
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are particularly interested in developing and characterizing hybrid quantum systems (interfaces between dissimilar physical media), suitable for quantum information purposes, and exotic sources of faint light
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of protein therapeutics, because NMR spectra are sensitive to molecular shape and intermolecular interactions as well as chemical structure, and NMR can reproducibly probe this information at atomic resolution
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are manufactured on one production line, the control-process-quality relationships are not fully understood based on quantitative data analysis. Understanding the control-process-quality relationships will enable