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sound background in geophysical fluid dynamics, experience in numerical ocean or atmospheric modelling, and experience with numerical data analysis. Good scientific presentation, writing, and
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nanobubble-inducing shockwave is a powerful tool for ablating vitreous opacities in vivo. In solar energy utilization, direct steam generation/vapor production from bulk or surface fluid surface is a promising
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that eventually will automate crucial design steps. In addition, we are developing simulators (on various abstraction levels; using, e.g., Computational Fluid Dynamics) which enables us to validate designs
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context. The project is carried out in cooperation with the TUM Chair of Flight System Dynamics. The work is based on existing research results such as a GPU-based Lattice-Boltzmann solver and a modular
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the Research Group “Numerical Mathematics and Scientific Computing” (Head: Prof. Dr. V. John) starting November 1, 2025. We are looking for: The applicant should perform active research in numerical analysis
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fluids, design novel numerical simulation and optimal control schemes, and provide new means for risk management. This project mainly focuses on the analysis and optimal control of the underlying SPDE and
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simulators (on various abstraction levels using, e.g., Computational Fluid Dynamics) which enables us to verify designs of microfluidic devices even before the first prototype is fabricated. Fabrication: We
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investigate methods that eventually will automate crucial design steps. In addition, we are developing simulators (on various abstraction levels; using, e.g., Computational Fluid Dynamics) which enables us to