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requires detailed imaging, beyond what is currently possible in humans in vivo. In this NWO-funded Vici project, we will leverage Ultra-High Field MRI (7T) with recent advances in MRI hardware, acquisition
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imaging methodologies, biological sample preparation, vacuum technology, laser operation and optics, and electrical and mechanical engineering. Furthermore, you are expected to present your work in
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to develop a hyperspectral DUV imaging system for applications in microscopy in the context of chiral light-matter interactions at the nanoscale as part of our team at the VU Amsterdam (matzlab.com
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of microscopic objects Job description Ultrafast photoacoustics is a process in which we use extremely short laser pulses to heat a material, giving rise to a rapid expansion that results in the generation of high
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, multi‑dimensional imaging data and enable richer exploration of historical paintings in collaboration with the Van Gogh Museum. Information Paintings are examined to understand artistic processes, support
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the context of chiral light-matter interactions at the nanoscale as part of our team at the VU Amsterdam (matzlab.com ). Your project combines concepts from optical design, holographic imaging, computational
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might be for you! This project will explore how multicomponent fluids flows in droplets just after being created during the process of inkjet printing using piezoactuation. Inkjet printing has moved
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(such as satellite video or hyper-spectral imagers), new processing methods (such as inverse SAR, microdoppler, multi-data fusion or machine learning-based pattern recognition) and new opportunities
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carries out technological research in the areas of optical component technology, optical instrumentation (spectro-radiometric imaging instruments in the visible spectrum and infrared range, interferometry
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of intrusive imagery—both positive (e.g., memories of cherished moments with the deceased) and negative (e.g., images related to the circumstances of the death). Despite their apparent clinical relevance, little