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SINTEF. You will engage in highly translational research, bridging the gap from laboratory discoveries to advanced computational analyses and ultimately to clinical trials aimed at improving cancer therapy
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environment spanning oncology, cell biology, imaging, bioinformatics and machine learning, with access to state-of-the-art robotic drug screening and high-content microscopy infrastructure at the NOR-Openscreen
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Technology (NTNU), University of Oslo, Oslo School of Architecture and Design, Royal Norwegian Naval Academy, Norwegian Mapping Authority, MET and SINTEF Nordvest. There are about 30 user partners from
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partners are the Norwegian University of Science and Technology (NTNU), University of Oslo, Oslo School of Architecture and Design, Royal Norwegian Naval Academy, Norwegian Mapping Authority, MET and SINTEF
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power, which makes skyrmion devices contenders for future low-power computation. However, due to their small size and magnetic nature, skyrmions are difficult to image, especially while moving due
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are nanoscale stable magnetic quasiparticles which move when a current is applied. This process requires very little electrical power, which makes skyrmion devices contenders for future low-power computation