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for three consecutive periods (2014-2018 and 2018-2022 and 2023-2026). ICN2 comprises 20 Research Groups, 7 Technical Development and Support Units and Facilities, and 2 Research Platforms, covering different
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recording, motion capture, eye tracking, physiological measurements, various types of brain imaging (EEG, fMRI), and rapid prototyping and robotics laboratories. Applicants are required to upload a research
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gene expression at the transcription level is limited. Despite the fact that most protein-coding mitochondrial genes are transcribed at the same rate, the levels of mature transcripts are different
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, purification and validation of formed cages using microfluidics diffusional sizing, DLS, mass photometry and cryo-TEM imaging. One a functional design is at hand, the work will be focused on structure
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capture. About the research project The project will apply MRI to elucidate on the swelling of superabsorbent polymer in complex fluids with different physiochemical properties and under pressure. The aim
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, humanities, social sciences, and physical sciences to address real-world challenges. Faculty and students conceptualize, prototype and evaluate products and processes that enhance human potential, well-being
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access to state-of-the-art facilities in sound/video recording, motion capture, eye tracking, physiological measurements, various types of brain imaging (EEG, fMRI), and rapid prototyping and robotics
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design of quantum platforms and models to improve upon existing error correcting codes, while leveraging platform-specific physics knowledge, be it in ultracold neutral atoms, trapped ions
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imaging (EEG, fMRI), and rapid prototyping and robotics laboratories. Applicants are required to upload/attach a research outline (uio.no) stating research questions and theoretical and methodological
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the relativistic time dilation by only 1cm height difference in the gravitational field of earth. They are useful for searches of physics beyond the standard model, exploration of many-body physics, and societal