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] Subject Areas: Multiphysics Simulation of Hemodynamics, Treatment, and Long-Term Perspective of Cerebral Aneurysms Using Lattice Boltzmann Methods. Appl Deadline: 2025/06/30 11:59PM (accepting
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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | about 2 months ago
tools for spacecraft applications, specifically leveraging topology optimization and lattice structures. Building upon prior work at JPL, including the open-source lattice design tool UnitcellHub and an
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National Aeronautics and Space Administration (NASA) | Pasadena, California | United States | 3 months ago
tools for spacecraft applications, specifically leveraging topology optimization and lattice structures. Building upon prior work at JPL, including the open-source lattice design tool UnitcellHub and an
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-molecule super-resolution imaging, advanced lattice light sheet microscopy and other state of the art biophysical approaches to study molecular mechanisms of transcription, genome organization and bio
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. Field of Research: Multiphysics Simulation of Hemodynamics, Treatment, and Long-Term Perspective of Cerebral Aneurysms Using Lattice Boltzmann Methods. As part of the second phase of the DFG funded
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advantage: Expertise in pore-scale reactive transport simulations. Experience in Lattice-Boltzmann (LB) codes and simulations. Experience in geochemical codes like PHREEQC, MIN3P, CrunchFlow, GEMS etc., and a
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programming, and satellite communication, inspiring young generations to be interested in related topics. Design phased array design using sparse lattices, Design of Reflective Intelligent surfaces, Design of
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molecules in optical lattices. The project is a collaboration with researchers in Paris and Warsaw. The post holder will work directly with Prof. Simon Cornish (Physics) and Prof. Jeremy Hutson (Chemistry
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and synchrotron radiation, with the goal of informing component design, shielding, and electronics protection strategies. The successful candidate will work closely with the beam optics, lattice, and
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, alternative discretization methods (e.g., Lattice Boltzmann Methods), and high-performance computing. A selection of possible research areas can be found on our website: https://www.math.cit.tum.de/math