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Field
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materials at the micro-to-nano-scale. To this end, the lab has developed a technique for imaging spin waves – microscopic waves in magnetic materials - based on magnetic sensing with nitrogen-vacancy (NV
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addition, this material needs to have certain physical and chemical properties to ensure both biocompatibility and good contrast for real-time imaging during the procedure. The goal of this project
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/conditions. Using a combination of optical, microscopy, image processing, mathematical modelling and ecological comparative methods, we will perform a large-scale comparative study on insect eyes
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of the prototype needs to be defined in such way that the proof of concept is demonstrated. The prototyping needs to include InP and CMOS chips, as well as integrated solution. The characterization of the prototype
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non-coding variation (e.g. promotors, enhancers, TFBSs, TADs, lncRNAs, etc) - Developing AI models for classifying genetic variants based on functional impact that are explainable and clinically
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comprehensive datasets on eye diseases which includes multimodal imaging, genetics, lifestyle factors, and blood biomarkers, and have close collaboration with international consortia. The TU Delft has
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. · Combine these with other hemodynamic scans, such as blood-brain-barrier ASL MRI. Metabolism PhD position: · Implement diffusion-weighted MR spectroscopic imaging (dMRSI) at 7T (and potentially 3T
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, overall picture of the nature of uncertainty in the full scientific discourse. Address the scientific-philosophical issues that arise when concretizing statements about uncertainties and probabilities. We
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to establish how insect eyes are adapted to different environments/conditions. Using a combination of optical, microscopy, image processing, mathematical modelling and ecological comparative methods, we will
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. This will involve tuning existing open Large Language Models (LLMs) to add knowledge about existing radio astronomy codes and the capabilities of emerging technologies, testing prototype codes generated by