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will involve applying multiple time-dependent electronic structure and nonadiabatic dynamic methods to model the CISS effect in molecular systems. Method development, potentially in the realm of time
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(e.g. radar, satellite, SWOT, SMAP, GOES, etc.) Hydrodynamic model optimization and surrogate modeling Infrastructure risk assessment and resilience analytics Integrate AI methods with physics-based
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, and MRV performance) and identify optimal deployment models coupled with learnings from forest management. Conduct techno-economic and life-cycle assessments (TEA/LCA) integrating forest operations
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in the area of protein level structural responses to low-dose radiation. The position is intended for a motivated individual with a background in a molecular biology with additional experience
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optimize epitaxial growth of complex oxide nanostructures, especially ferroelectrics, via solid-phase epitaxy (SPE) Perform thin-film and device characterization across structural (XRD, AFM, SEM, XPS, TEM
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development experience GTSAM or similar factor graph optimization frameworks Field robotics deployment in challenging environments Multi-sensor calibration and fusion Commitment to open-source development and
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the emphasis of the position will be on the development of nanomaterials for AM and understanding of AM process optimization, functional materials design and compositional grading, electrochemical and
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-inorganic hybrid semiconductors for photo sensing applications. In particular, we will grow novel low dimensional hybrid single crystal materials, such as organo-inorganic structures, chiral structures and
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University of North Carolina at Chapel Hill | Chapel Hill, North Carolina | United States | 3 months ago
personal and professional sustainability. We optimize our partnership with the UNC Health System through close collaboration and commitment to service. OUR VISION Our vision is to be the nation’s leading
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and professional sustainability. We optimize our partnership with the UNC Health System through close collaboration and commitment to service. OUR VISION Our vision is to be the nation’s leading public