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the model results Develop further modelling approaches to simulate the dynamics of particular species and ecosystem services (e.g. empirical models for crop yields) Closely collaborate with social scientists
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organize simulation protocol, organize model input-output and evaluation data of the improved LPJmL Dynamic Global Vegetation Model with the goal to analyse simulated fire effects on tundra vegetation and
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) Development of deposition processes using PVD and/or electrochemical deposition (ECD) Optimization of doping and annealing processes to maximize thermoelectric performance (ZT) Structural and electrical
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Fritz Haber Institute of the Max Planck Society, Berlin | Berlin, Berlin | Germany | about 5 hours ago
. Study photoinduced ultrafast phase transitions. Explore electron–phonon coupling and phonon-assisted optical processes. Investigate femtosecond structural and electronic dynamics in quantum materials and
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of nonlinear PDEs or the development of new solver- or coupling-methods incl. their convergence analysis, but also modeling and simulation aspects across a wide range of fields - from biomechanics and geophysics
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Job description: DESY The CMS Quantum Computing group develops generative machine learning models for detector simulations, specifically the simulation of showers in calorimeters: Proof-of-principle
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optical communication networks and systems, as well as machine learning, computer vision and compressing digital videos. Become a part of our team and join us on our journey of research and innovation! Be
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of oxygen and Earth’s first global glaciation about 2.4 billion years ago. Key responsibilities: design, run, and analyse equilibrium and transient simulations with a coupled Earth-system model
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procedure, please contact: Dr. Ana Depetris Chauvin | fellows4fungi(at)leibniz-hki.de | +49 3641 532 - 1263 Fellows4Fungi.eu Application Complete online application form Research proposal in one
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of high efficiency perovskite single-junction and perovskite/silicon tandem solar cells Specific device characterization, experimental loss analysis, and simulation of single films and complete solar