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computationally efficient at simulating permanent magnet structures, and capable of leading to the globally optimal solution of the underlying design optimization problem. We aim to combine gradient-based
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concept and design, construction and prototyping, calibration and validation, implementation and operations, data analysis, processing, dissemination, and applications, ultimately leading to the development
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this postdoc position, along with an additional postdoc and one PhD position, we will tackle this grand challenge by fabricating and studying electrocatalysts with three-dimensional active site structures. With
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capture. The research is based on strong competences on electrochemistry, atomic scale and multi-physics modelling, autonomous materials discovery, materials processing, and structural analyses. We also
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analysis Validation of turbine response models against measurements Inflow and wake modelling Wind turbine controller design Aero- and hydro-dynamic modelling Structural dynamics, beam models and cross
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& Atmospheric Physics Division of the Department of Space Research and Space Technology (DTU Space), current focus areas cover exoplanets, large-scale structure of the universe, physics of compact objects, space
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& Atmospheric Physics Division of the Department of Space Research and Space Technology (DTU Space), current focus areas cover exoplanets, large-scale structure of the universe, physics of compact objects, space
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, organization/operational structures and social conditions. Within FEDORA, this post-doc position is focused on the development of a flexible travel behavior in complex multimodal urban environments, including
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FTIR, EPR, XPS, Raman) and DFT-based electronic structure analysis (in collaboration) to elucidate structure–activity relationships. Analyze reaction products, selectivity, and mass balance for both