362 density-functional-theory-molecular-dynamics positions at Oak Ridge National Laboratory
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the application of machine and cascade theory to develop, simulate, execute, and interpret testing evolutions for discovery, performance evaluation, and optimization of enrichment systems. As part of our team, you
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crystal material’s growth and characterization. You will perform cutting-edge research on theory and modeling of dynamics in condensed matter. Major Duties/Responsibilities: Development of theoretical
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challenges facing the nation. The Advanced Engineering Technologies (AET) Group is seeking a computational fluid dynamics analyst to specialize in the use and development of computational simulation software
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challenges facing the nation. The Advanced Engineering Technologies (AET) Group is seeking a senior computational fluid dynamics analyst specializing in the use and development of computational simulation
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Ridge National Laboratory (ORNL) seeks a motivated Research Professional. This position primarily focuses on large-scale molecular dynamics (MD) simulations and AI-integrated multiscale modeling
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of advanced materials. Research efforts will include the application of density functional theory packages and in-house codes, and the development of supplemental numerical tools, to describe
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Ridge National Laboratory (ORNL) seeks a motivated Postdoctoral Research Associate. This position primarily focuses on large-scale molecular dynamics (MD) simulations and AI-integrated multiscale modeling
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, with primary responsibility for performing advanced rotor dynamic analyses and leading the research and development of next-generation modeling capabilities. This role focuses on improving the fidelity
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discretization techniques, high performance computing, mesh generation, and geometry representation for a wide variety of physics applications. Our intention is to integrate computational modeling with
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discretization techniques, high performance computing, mesh generation, and geometry representation for a wide variety of physics applications. Our intention is to integrate computational modeling with