17 molecular-dynamics-simulation Postdoctoral research jobs at Oak Ridge National Laboratory
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development/implementation of integrated, physics-based multi-scale simulations, virtual manufacturing Follow team planning, documentation, verification and validation. Collaborate within a multi-disciplinary
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will involve designing beam dynamics experiments, measurement, simulation, and data analysis. This position resides in the Accelerator Physics Group in the Accelerator Science and Technology Section
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to support the design. Perform computational fluid dynamic, computational magnetohydrodynamic, thermal hydraulic, and mass transport simulations of tritium breeding blanket designs. Collaboration with a broad
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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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the Critical Infrastructure Resilience (CIR) Group in the Human Dynamics Section, Geospatial Science and Human Security Division, National Security Sciences Directorate, at Oak Ridge National Laboratory (ORNL
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phase space distributions, including high dynamic range and high dimensional (6D) measurements. Contribute to improved measurement and analysis procedures. Perform simulations to understand beam evolution
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Experience with cameras, sensors, and real-time data acquisition or control The ability to work in a very dynamic team environment is required Excellent verbal and written communication skills Special
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and simulation tools, such as spreadsheet-based process cost modeling, input/output modeling, or commercially available life cycle analysis tools such as SimaPro and openLCA. Excellent written and oral
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photoinduced force microscopy (PiFM)—to investigate exciton dynamics, charge transfer, and interfacial disorder. Responsibilities will include designing experiments, preparing and characterizing samples
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(ORNL). As part of our research team led by Dr. Matthew Brahlek and Dr. Rob Moore, you will focus on the growth of thin film and heterostructure quantum materials utilizing molecular beam epitaxy, and