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Helmholtz-Zentrum Potsdam - Deutsches GeoForschungsZentrum GFZ | Potsdam, Brandenburg | Germany | 3 months ago
of existing and possible new measurement strategies, accompanied by model simulation, is part of the work. The aim is to develop correction formula depending on rock types and general recommendations
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for the optimal control of gate calibration in full-stack quantum computers and simulators. Based on your assessment, you will develop new, sample-efficient optimal control approaches for gate calibration and test
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a model based on one for the key example locations and identify the best combination of agroforestry systems through land use/land cover (LULC) allocations. Your model will simulate how improved
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Your Job: Research: employ on quantum field theory in curved spacetime to model photon kinematics Output: publish in peer reviewed journals, seek patent applications when possible Dissemination
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develop effective models to predict the spin/orbital textures and transport characteristics of these systems, particularly focusing on spin/orbital-charge interconversion effects and magnetotransport
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-of-the-Art report for DT concepts and implementations in nuclear waste disposal Identification of suitable models for major processes of radionuclide migration in the geological environment, as
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the field of model-driven and data-driven computational science. Job description Are you interested in bridging the gap between mathematical sciences on the one side and natural sciences, engineering and
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engineering aspects related to dynamic modeling and the Guidance, Navigation, and Control (GN&C) of advanced autonomous spacecraft. Emphasis will be placed on real-time attitude control and proximity
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the development of key parts of the experiment, in particular the electron-detection system, tests them at suitable facilities at DESY and around the world (e.g. at SLAC), and uses detailed simulations to allow
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develop a particle model which allows for both, realistic modelling of fragmentation in DEM simulations and at the same time highly efficient large scale simulations. Your tasks: In your work you will