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describe and improve instrument behavior in physically relevant limits. Abundant examples are found in physics, chemistry, and biology. We are interested developing new mathematical models to simulate
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on developing predictive tools for ceramic AM by combining computational and experimental approaches to study fundamental material processes during direct-ink writing and post-processing of ceramic parts. We
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device based upon the use of nanodiamonds. It is, therefore, of paramount importance to develop modeling and measurement techniques of the lattice distortion/strain field due to a color center in
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than the actual biological changes being probed in metabolomics investigations, which is a roadblock to commercial translation of findings. Research in this area will focus on the development and
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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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, such as blood vessels and bone, we also need to develop a platform for in situ mechanical measurements, which may be achieved by measuring deformation under controlled stress and flow. 3D printing is
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viability in scaffolds as a quality attribute of a tissue engineered medical product. We will develop new methods for assessing cell viability in scaffolds that have advantages such as being label-free, non
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involves the development of modeling tools for microstructure-sensitive materials characterization, including finite-element tools and crystal plasticity modeling, extensible to new classes of constitutive
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using vibrational spectroscopy, photoelectron spectroscopy, contact angle, and eGaIn electrical measurements to address technology barriers which will enable successful development and subsequent
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opportunities are available in developing integrated nanophotonic architectures and devices for realizing compact, efficient, accurate and dynamic quantum AMO systems-on-a-chip. By creating a set of scalable