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dynamic Liberal Arts and Sciences program. If you enjoy bringing structure to complexity in an interdisciplinary academic environment, we encourage you to apply! Introduction This is a rare opportunity to
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for monitoring the built environment. While InSAR readily produces large volumes of application-agnostic (“double-A”) deformation products, these are inherently ambiguous and sub-optimal for decision-making in
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and implement novel computational strategies that combine physics-based modeling, optimization techniques, and machine learning approaches to improve cryo-ET image processing workflows. This includes
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production by developing innovative edible bioinks that enable the 3D bioprinting of structurally accurate bovine meat constructs. The research is embedded in the FAB4FUTURE consortium, bringing together
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numerical methods for the inverse design of nanophotonic structures enabling broadband, multiparameter sensing in fiber-based systems. The project is a collaboration between AMOLF, TU Eindhoven, and
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builds on our recent works (https://www.nature.com/articles/s41467-025-65282-1 and https://www.nature.com/articles/nature20605 ). Join our team in the https://pomplunlab.com and https
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Circuits Project description: Neuronal synapses are remarkably heterogeneous and dynamic structures that vary widely in molecular composition, nanostructure, and signaling strength. This rich variety
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. The result is a new class of living composite materials that are not only structurally resilient but also inherently sustainable, moving us toward a future where infrastructure is grown, not just built
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consortium, translating complex CFD results into actionable insights for structural and control engineers. Where to apply Website https://www.academictransfer.com/en/jobs/359872/postdoctoral-researcher-high-fi
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real-world challenges faced by industry, governments, and society within the international STRUCTURE project? Information The PhD candidate will work within the international research project STRUCTURE