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, data analytics, geospatial science and technology, nuclear nonproliferation, and high-performance computing for sensitive national security missions. We also enhance ORNL contributions to national
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critical to understanding target behavior during irradiation in the High Flux Isotope Reactor (HFIR). This could also involve development, validation, and deployment of new physical and analytical testing
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maturation, characterizing performance and properties of nuclear fuels and materials, and generate the data to advance physical modeling and simulation. The primary function of this open position is to perform
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engineering, chemical engineering, or a related field completed within the last five years Quantitative and analytical research background which can be applied to conduct research analysis on advanced
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grid analytics, and scientific imaging. The successful candidate will design and implement sparse algorithms for large-scale scientific and numerical computations. This role offers an exceptional
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measurement by ICP-MS or ICP-OES Conceive, design, and implement innovative analytical methods chemical analyses using state of the art elemental and isotopic mass spectrometric systems. Publish and present
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in manufacturing energy use, process systems, or industrial emissions reduction technologies. Possess an excellent quantitative and analytical background acquired through PhD research, which can be
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and analytics at scale to enable scientific discovery across the physical sciences, engineered systems, and biomedicine and health. It provides foundations and advances in quantum information sciences
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, systems biology, bioinformatics, bacterial physiology, and analytical chemistry at ORNL and at partner institutions. You will also craft and complete laboratory experiments, analyze quantitative data, and
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byproducts from used fuel reprocessing and recycling to stable and reusable forms. The work will involve wet chemistry, analytical characterization techniques, and flow sheet development. The FCCT Research