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methodology and spatiotemporal modelling for climate-sensitive infectious disease forecasting. The work will contribute to ongoing efforts to build real-time, operational early warning systems in collaboration
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and modeling studies of how natural aerosol (e.g. emitted from volcanoes) and anthropogenic aerosols (from inadvertent or intentional emissions) affect clouds, radiation, and climate. The main research
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Meridional Overturning Circulation, from models and in situ data 2) using Lagrangian measurements to study ocean dynamics, for example transport and spectral characteristics 3) ocean-bathymetry interactions
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highly accurate and efficient computational model by integrating the newly developed approaches into the numerical program developed in the ‘OceanCoupling ’ project. We would like the successful applicant
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Documented experience in at least one of the following areas: molecular cloning and mutagenesis in non-model bacterial species (ideally in a BSL-2 environment), mass spectrometry (ideally in combination with
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-Curie Doctoral Network NeuroNanotech : ‘Integrating Nanotechnology and Neurocomputational Modeling for Advanced Brain Interfaces’. The NeuroNanotech project aims to develop next-generation
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understanding of the composition of the crust of the earth? Explore how to benefit from recent research in foundational neural models that learn from large unlabeled image datasets, also incorporating context
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Overturning Circulation, from models and in situ data 2) using Lagrangian measurements to study ocean dynamics, for example transport and spectral characteristics 3) ocean-bathymetry interactions Other topics
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candidates and projects will have to undergo a check versus national export, sanctions and security regulations. Candidates may be excluded based on these checks. Primary checkpoints are the Export Control
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description The position is funded by EU Horizon and part of the Marie Sklodwoska-Curie Doctoral Network NeuroNanotech : ‘Integrating Nanotechnology and Neurocomputational Modeling for Advanced Brain Interfaces