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person eager to contribute to cutting-edge biomedical imaging research and enhancing our understanding of the brain? The BrainEcho Lab within the Department of Neuroscience at Erasmus MC is looking for a
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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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neuroimaging frontier! Job description Understanding how the brain works is one of the most profound scientific challenges of our time. To that end, the development of new imaging methods is one of the most
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interdisciplinary research project in molecular ultrasound imaging using functionalized, monodisperse microbubbles. The project aims to understand how the acoustic response of microbubbles changes upon molecular
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imaging inside human long bones (https://doi.org/10.1007/978-3-030-91979-5_10). For optimal imaging inside bone, one must consider the challenging 3D wave physics imposed by bone tissue: wave refraction
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projects that will provide ground-breaking technological advances based on ultrasound transducer arrays. At the Imaging Physics Department, Faculty of Applied Sciences, we develop innovative measurement
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and hybrid settings. The project offers room to refine the research questions, to prototype digital solutions and collaborate with educational institutions and industry partners. Information As a
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for a Postdoc that will combine MRI, microscopy and image processing to create 3D reconstructions of iron rich areas in the human brain. Join Us! The IMCN Research Group is a group of world-leading
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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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interventions. Flexible hybrid working is possible: data analysis and statistical work can be done remotely, with regular on-site meetings for team collaboration and integration with clinical and imaging experts