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(HPC). In addition, the prospective postdoctoral appointee will develop reduced-complexity models for accurate prediction of fluid dynamical systems for the purposes of increasing computational
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The X-ray Science Division (XSD) at Argonne National Laboratory invites applications for a postdoctoral researcher position to develop novel X-ray diffraction techniques for 3-dimensional imaging
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This level of knowledge is typically achieved through a formal education at the Ph.D. degree level with zero to three years of experience or equivalent in the scientific application of this knowledge and
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economic and decarbonization goals. This role will build on existing work at Argonne and collaborate with a multi-disciplinary team and will involve the following: Conduct research and analysis and develop
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scalability of multi-scale and multi-physics simulation codes. Develop turbulent combustion modeling approaches for predictive computational fluid dynamics (CFD) simulations of combustion dynamics and emissions
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Development and applications of the next-generation X-ray nanoprobe The candidate will join a multidisciplinary team to develop the next-generation scanning X-ray nanoprobe with cryogenic
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and making U.S. energy systems more sustainable and resilient. We develop and use analytic tools to help the U.S. achieve these goals. We also develop, deploy, and advance grid technologies that ensure
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applications including decarbonized chemical production, electrometallurgy, and advanced nuclear systems. Under the guidance of a supervisor, the postdoctoral appointee will develop fundamental understanding
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energy systems, develop new models and datasets, and provide rigorous and objective results. We are currently seeking applicants with life cycle analysis experience in one or more of the following areas
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contribute to optimization of reactor and fuel cycle design. In this position, the candidate will develop computational methods and/or computer codes to model the physics and engineering of reactor and fuel