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of new and existing structures, (4) applying the Fiber Reinforced Polymer (FRP) retrofit design to improve the performance of existing structures, (5) studying the feasibility of using high strength
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. These resonators are being applied to mass and force sensing, inertial sensing, biochemical sensing, and quantum-limited measurements. New tools are also being developed to better understand the physics
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insight into microbial communities in their unperturbed state. This project will use in situ advanced measurement techniques such as flow cytometry, quantum cascade laser infrared (QCL-IR) microscopy, and
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impediments to meeting the desired manufacturing and performance standards. Digital twins (DT) are being adopted in the AM industry to optimize the entire manufacturing process and enable products with high
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requires expertise in Computer Science, Statistics, or a similar field. Experience with machine learning, genetics, and/or bio-informatics is strongly preferred. The postdoc will work together and within a
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and utilize equipment such as high- and low- field NMR/MRI systems and non-traditional systems such as single-sided magnets. In addition to this equipment, techniques such as finite-element modeling and
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for electrical energy storage at grid scale are severely limited by the rheology, energy density, and stability of the working fluids. These fluids have requirements that are in conflict and require performance
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We develop and utilize state-of-the-art experimental and computational techniques to acquire, evaluate, and correlate thermodynamic data of standard reference quality with a particular emphasis on
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. Shirley, “Quantum blackbody thermometry” New Journal of Physics23, 033037 (2021).
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and human breath). This project focuses on the development of advanced sensing components-individually or within sensor systems-that can help to push performance to new levels, thereby impacting