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Field
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sequestration and greenhouse gas emissions in agricultural grasslands? Do you want to model the interactions between roots, microbes, and minerals that govern these processes? We are looking for a postdoc within
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to model the interactions between roots, microbes, and minerals that govern these processes? We are looking for a postdoc within the NWA project “Harnessing root-microbe-mineral interactions for climate
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-structure interaction of the Maeslant Barrier, combining field modal testing, numerical modelling, and signal processing to capture and interpret its dynamic response under current and future hydraulic and
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passionate about linking atomistic processes to device performance through computer simulations? Are you fascinated by designing next-generation semiconductors with quantum-mechanical methods enhanced by AI
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the present will create the required and desired resilient and dynamic multifunctional coastal landscapes of the future. SOURCE will deliver the scientific knowledge, models and design tools to develop and
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optics and study this at the micro-to-nanoscale using spins in diamond. Job description Research in the van der Sar lab: Our lab studies how interacting charges and spins move through materials
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of AI for the integration of multimodal healthcare data specifically incorporating patient preferences. This includes investigating new methods but also designing and benchmarking integration algorithms
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designing and benchmarking integration algorithms. The position is situated in the Intelligent Data Engineering Lab and will be supervised by Dr. Jan-Christoph Kalo and Prof. Paul Groth. What you will do
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Challenge: Understanding how micromobility affects pedestrian stress and comfort Change: Leveraging XR simulations to explore real-world pedestrian interactions. Impact: Guiding urban policy toward
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interaction research; Who has experience with human-AI interaction research; Who has experience with mixed-methods research (quantitative-qualitative research methods), preferably including design-based