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National Aeronautics and Space Administration (NASA) | Greenbelt, Maryland | United States | about 12 hours ago
plasmas, (2) compressible and incompressible magnetohydrodynamic (MHD) turbulence in Cartesian and spherical geometries, and (3) wave-particle interactions and parametric instabilities. Simulation
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of the project PRIMUS 26/SCI/026 is "Visco-elastic fluids: analysis and asymptotic behaviour" and concentrates mostly on: Homogenization of (in)compressible visco-elastic fluids Singular limits such as
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the genome (compression, optical tweezers). - Analyze the impact of forces on the final production of Twist protein. - Validate the sensitivity to forces of genes identified by NetSeq. The successful candidate
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We are looking for a researcher, whose expertise lies in Discontinuous Galerkin discretisations, compressible flows, and FEniCS/Firedrake/Dune, to work with Luis Espath & Prof Paul Houston jointly
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astronomy - Explore compression opportunities within the radio-astronomy workflows potentially leveraging DNN methodologies. These compression schemes will be evaluated in terms of (i) trade-off between
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extensively studied in dynamic compression, with widely varying compression rates. A large body of literature exists, but there is disagreement on the transition ranges, the nature of some of these transitions
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geometry in control theory, etc.) and in the field of education. Many phenomena observed in the ocean or atmosphere are still not understood. Using compressible or incompressible models, we will seek
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facilities, we advance understanding of turbulent incompressible, compressible, and multiphase flows through coordinated research. About the research project This research project develops high-efficiency
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at the Division covers turbulent flow (both compressible and incompressible), multiphase flows, aero-acoustics and turbomachines. Our tools include both computations and experiments. The research covers a wide
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position will be open at the Fluid Dynamic division of Mechanical and Maritime Science department. The research at the Division covers turbulent flow (both compressible and incompressible), multiphase flows