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School of Engineering Sciences at KTH Job description The research project concerns the development and use of MINFLUX single-molecule microscopy for cellular imaging and dynamic studies
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about ten senior researchers and about 20 graduate students. Research in this area started in the mid-1980s and currently includes (i) Geometry and Computer Vision, (ii) Medical Image Analysis, and (iii
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), Opn4 and Opn5, as photoreceptors not directly involved in image-forming vision has opened up for non-visual opsin studies. Our recent publication, using GFP reporter mice, provides evidence of early
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trials with prototype vehicles and human drivers. The position will include some travel to project partners and test tracks. Who we are looking for: To qualify as a PhD student, you must have a Master's
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to improve our understanding of fundamental processes relevant to combustion engines, gas turbines, and fire safety. The successful candidate will join a dynamic and diverse research group with an extensive
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specialist qualification. The clinic is equipped with a QHorse, a Qualisys system for objective lameness assessment. At the University hospital we have a diagnostic imaging clinic, equipped with large animal
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, particularly in applying advanced screening tools, such as high-content imaging (Cell Painting) to uncover effects of exposure to (nano)particles and chemicals. The position is hosted by the School of Medical
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, including a joint postdoctoral programme of the Nordic EMBL Partnership for Molecular Medicine, drive fund raising and manage external reviews and refunding process. You will use your scientific and
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research is based on large and high-dimensional datasets across multiple modalities, including molecular, clinical and histopathology imaging data. Our computational pathology research is based
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carcinoma xenografts in immunocompromised mice. They will treat mice with appropriate chemotherapy regimens and image them using different imaging platforms. Primary human organoids will be established and