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motivated to advance trustworthy artificial intelligence in medical imaging? In this postdoctoral position, you will work on explainable AI and foundation models for CT imaging, combining methodological
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and imaging capabilities, and on applying THz (emission) microscopy to study 2D materials and 2D heterostructures. The microscope will use femtosecond lasers to generate and detect terahertz pulses
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awareness. We welcome applications from recent PhD graduates in relevant areas, such as artificial intelligence and natural language processing. An ideal candidate will have a strong technical background in
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new experimental approaches and imaging strategies, and there is ample opportunity to initiate and coordinate experiments together with the PhD students while contributing to their supervision alongside
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closely with PhD candidates, technical staff, and collaborators on stem cell culture, organoid and Chimeroid generation, tissue processing, and molecular profiling, while also taking a leading role in
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processes are affected in the diseased brain by combining cutting-edge techniques such as in vivo and ex vivo electrophysiology recordings, live-imaging of calcium indicators and neurotransmitter sensors
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approaches will involve the use of helium-filled soap bubbles as flow tracers, combined with multi-directional imaging and illumination for omni-directional flow measurements. These elements form the basis
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, biochemical, ecological and physiological measurements and experiments with remote sensing and numerical modelling to create in-depth understanding of the processes that control estuarine and delta systems. One
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scientific development of design tools and assessment frameworks that enable circularity in durable aerospace components. You will generate insights that directly inform the design process in other work
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requirements to platform integration, demonstrating Titan Forge is a paradigm-shift in mission development for both early and late development and validation phases. You will work on premises, both at TU Delft