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criteria Applicants will be assessed on the quality and relevance of the project proposal, their academic grades and their academic experience and personal skills to carry out the project. The hiring process
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criteria Applicants will be assessed on the quality and relevance of the project proposal, their academic grades and their academic experience and personal skills to carry out the project. The hiring process
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bridge traditionally separate areas of study to provide new insights into fundamental biological processes relevant to health and disease. Your main tasks will be The candidate will analyze and integrate
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of this position is to develop a massively parallel version of a computer code called Commander, and apply this to archival data from Planck HFI, new data from Simons Observatory, and simulated data from LiteBIRD, a
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the Faculty of Mathematics and Natural Sciences at the University of Oslo. We focus on the fundamental physics of geological processes related to: transport and reactions in deformable porous media, fracturing
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an integrated computational biology approach, the project will bridge traditionally separate areas of study to provide new insights into fundamental biological processes relevant to health and disease. Your main
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PhD Research Fellow in Experimental Fluid Mechanics: Tunable hairy surfaces for droplet flow control
. The fellowship period is 3 years. The position is part of the HAIRY project funded by the Research Council of Norway. The project aims to provide a fundamental understanding of the physical processes involved as
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. The project explores how entangled social, political and environmental processes shape change. We are especially interested in the non-linear processes of change which are not factored into existing models
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is a cross-disciplinary Geology-Physics center hosted by the Faculty of Mathematics and Natural Sciences at the University of Oslo. We focus on the fundamental physics of geological processes related
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the biophysical processes as droplets wet membrane compartments in cells. Numerical simulations and theoretical models will be developed of the viscous interfacial fluid flow at cellular membranes alongside