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D. Bartuschat works on particle-laden electrokinetically driven micro-fluid flows for applications in
laboratory-on-a-chip systems.
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T. Gradl works on a multigrid solver for finite elements on high
performance computers. (Thesis in final stage)
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B. Gmeiner extends a multigrid solver for semi-structured finite elements using multi-core systems.
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F. Schornbaum works on design and implementation of massive parallel multi-physics simulations.
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K. Pickl concentrates on the simulation of self-propelled microorganisms.
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T. Preclik concentrates on solving contact problems in multibody dynamics.
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D. Ritter develops multigrid methods for problems
in molecular dynamics.
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M. Bauer works on Lattice-Boltzmann simulations of protein-stabilized foams.
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M. Stürmer explores performance optimization techniques for
multi-core processors.
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K. Hertel designs efficient methods for the numerical simulation of
optical waves on High Performance Systems.
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B. T. Abebe works on modelling, optimization and simulation of flexible thin film solar cells.
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C. Kuschel designs and implements a mathematical model to simulate and optimally plan smart grids.
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F. Feng works on efficient numerical methods for solving rate-equations in laser simulation.
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S. Bogner works on Lattice-Boltzmann simulations of free surface flows with particles.
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S. Yan works on the simulation of optical waves in printed solar cells.
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C. Godenschwager works on the simulation of myocardial perfusion.
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T. Graupeter works on Simulation of enhancement elements in lasers under consideration of thermal and polarisation effetcs.
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T. Dreher works on optimization based parameter estimation for process models in power plants.
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