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major European initiative developing scientific foundation models (SciFMs) for materials science. SciFMs are emerging as a powerful paradigm for scientific discovery. SIMU-LINGUA addresses key challenges
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in September 2026. Physical learning is an emerging paradigm in which materials adapt their behavior through local physical rules, without digital computation. Despite rapid experimental progress, it
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security-oriented workflows. This includes designing methodologies that ensure traceability, robustness and bias mitigation in AI models, as well as creating prototype tools that demonstrate how transparent
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, medical imaging, pathology, molecular biology, and biostatistics. The resulting international biobank of precisely characterised tumour samples provides the basis for countless research projects and opens
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Quantum Scanning Microscope, enabling magnetic imaging at spatial resolutions from micrometres down to the nanometre scale. Advanced FIB-SEM facilities are available at Utrecht University’s Electron
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real-to-sim-to-real pipelines that automatically construct simulation environments from video recordings or images of real-world robotic tasks, enabling scalable and low-cost training data generation
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and seismic imaging, theoretical computer science, and theoretical physics. We participate in university focus areas in Complex Systems and Applied Data Science. More information For more information
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representations. Prototype and implement advanced control methodologies to meet the DFAOCS performance and stability objectives. Demonstrate the end-to-end stability and performance capabilities of the DFAOCS with
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, or building an industry prototype of an optical clock . Our group is furthermore exploring continuously operating atom interferometers, quantum simulation experiments using Rb-Sr mixtures, single Sr atoms in
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towards prototype development. You will work in the research groups of Roos Masereeuw (division of Pharmacology) and Tina Vermonden (division of Pharmaceutics), bridging two divisions and fostering