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Student or Postdoc (f/m/x) in the field of Theory and Methods for Non-equilibrium Theory and Atomistic Simulations of Complex Biomolecules Possible projects are variational free energy methods
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look forward to receiving your application via our online portal: mtj.jobs/3019439 Please submit your application online and including the following files: 1. Motivation letter 2. CV 3. Copy
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Documentation and evaluation of simulation results, taking into account current scientific literature, to answer key research and development questions Close collaboration with interdisciplinary teams
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Numerical Mathematics (Chair of Prof. B. Wohlmuth) within the DFG funded SPP2311. Research focus: Biomedical simulations of cerebral aneurysms with Lattice Boltzmann methods. Field of Research: Multiphysics
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. Please mention the disability or equality in your letter of application and enclose a copy of the relevant certificate. How to apply? Please send us your application documents including a cover letter, CV
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identifying climate-resilient restoration sites in the Baltic Sea. The project integrates regional climate modeling, AI-driven simulations, and biogeochemical modeling to predict seagrass distribution under
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modeling, AI-driven simulations, optical remote sensing and biogeochemical modeling to predict seagrass distribution under various climate and nutrient scenarios. SEAGUARD aims to provide science-based
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states Investigation of non-equilibrium dynamics relating to quantum simulation or pump-probe experiments Machine learning for feedback control of monitored quantum systems Participation in international
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theoretical methods and algorithms are required. The research project aims at deriving priors for Bayesian methods from atomistic simulations and machine learning. It also offers the opportunity to work with
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aims to shed light on AMOC variability and change during the last two millennia by combining climate model simulations with proxy data, using particle filter data assimilation, and to link