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start dates: Modeling PhD – August 2026 | Observational PhD – January 2027 About QUASI QUASI—Stormy Atmospheres over Quiescent Waters: Dynamical Implications of Fine scale Air–Sea Interaction—is an ERC
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supervised inverse modelling and highlights the need for controlled ocean-surface optics simulation facilities. This project introduces a physics-informed inverse modelling framework that decouples multi
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involving Fluid Dynamics. Demonstrable affinity with studying the physics of the ocean and preferably with polar oceanography. Experience with numerical modelling. Excellent ability to communicate in both
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Description The overarching mission is to conduct research combining machine learning, data assimilation, and physical modeling to enhance short-term (days/weeks) forecasts of Arctic sea ice conditions. The
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poorly understood and are inadequately represented in current climate and ice sheet models. This project focuses on improving the physical representation of glacier dynamics, calving laws, and ice–ocean
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Modelling Framework. The objective of this PhD position is to incorporate advanced dynamics of land-ocean coupling into this framework. Specifically, the Hydrological Discharge (HD) model simulating river
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Job Advertisement 2026-03 At the Leibniz Institute of Atmospheric Physics (IAP), a part-time position (75%) in the Department “Modelling of Atmospheric Processes” is available as PhD student
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improvement. The research will analyse results from a coupled hydrodynamic-biogeochemical model, adapted to the eastern German Baltic Sea, and compare it to existing monitoring data on seagrass distribution and
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behaviour Mediterranean terrestrial gastropods as model organisms of island fragmentation due to Holocene ocean transgression Phylogeographic and systematic studies of molossid bats of the Old World
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-based workflows, and TopoToolbox. The objective is to distinguish subtle tectonic signals from other landscape processes (erosion, sedimentation, sea-level change) and to compare geomorphic indicators