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: TH Technology and Health Magnetic resonance elastography (MRE) is a technique of magnetic resonance imaging (MRI) to estimate mechanical properties of tissues. Multidimensional diffusion MRI (MD-dMRI
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and cost-effective solutions integrating renewable energy sources, electrification of heat, and energy storage are deemed. We aim to design and prototype different technologies, including low and high
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nanoscale X-ray diffraction (XRD) methods to image domain dynamics in ferroelectric materials. These are characterized by the existence of domains in which there is an aligned polarization, similar
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, such as molecular data (e.g. omics), imaging, electronic health care records, longitudinal patient and population registries and biobanks. The applicant is expected to have a strong computational focus on
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supervisor of the project, please see: http://www.sljus.lu.se/staff/jesper-wallentin/ Work duties The project will develop nanoscale X-ray diffraction (XRD) methods to image domain dynamics in ferroelectric
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), imaging, electronic health care records, longitudinal patient and population registries and biobanks. The applicant is expected to have a strong computational focus on innovative development and application
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concern our common Swedish domesticated animal species with a focus on anesthesiology, diagnostic imaging, veterinary nursing, epidemiology, laboratory animal science, surgery, clinical pathology, medicine
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data at the actual beam line for LDMX, which will be operated parasitically to the photon science conducted with LCLS-II. In addition, we plan to collect cosmics data with a prototype of the hadronic
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maintaining reproducible and modular data analysis workflows Solid understanding of statistical methods and their application to transcriptomics and image-derived data Familiarity with public biological data
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allocation proposals, conducting machine learning workflows, and developing complete models. Example applications include microscopy image data, cryo-electron microscopy, structural prediction and dynamic