109 postdoc-in-thermal-network-of-the-physical-building positions at University of Oslo
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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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on bio- and/or geo-diversity be hosted by at least two of NHM´s research groups enhance and/or use NHM’s physical and digital collections, ideally both Expectations of the postdoc: Carry out the project
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Science Building in 2026, NCMBM links its discovery research to cutting-edge core facilities and strong clinical partnerships at Oslo University Hospital. Colourbox via Unsplash Colourbox Our scientific
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. The fellowship period is 3 years. The project will provide a fundamental understanding of droplet flow on single and complex fiber networks. Essential to the project is the development of a new understanding of
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between the labs of Prof. Jonas Paulsen and Prof. Cinzia Progida. Their joint group currently consists of several postdocs, PhD students, and master students, with expertice within cell- and molecular
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sematic technologies. Both groups have a dynamic and interactive working environment with good gender balance, consisting of full-time professors, researchers, and many postdocs and PhD candidates
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wants to facilitate future career opportunities for PhD students, postdocs and associate professors at the Department. We follow UiO's personnel policy, which requires the individual leader to actively
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. Colourbox via Unsplash Colourbox Qualifications Qualification requirements Applicants must have completed a doctoral degree in space technology, physics, electronics, robotics, or other relevant areas, and
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postdoc positions. INTEGREAT develops theories, methods, models and algorithms that integrate general and domain-specific knowledge with data, extending the data-centric paradigm of ML. Applicants
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. The project aspires to elucidate the physics governing droplet impact and wetting on fibrous networks in order to enhance fog net technology. The planned work is experimental and will be conducted in