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Galileo missions and the Hubble Space Telescope. This project uses computer simulations to study plume-plasma interactions and compares results with spacecraft data. The project leader is Associate
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properties of ultra-thin silica membranes (through e.g. transmission electron microscopy). There exist opportunities for being involved in the HCF fabrication process. The project is part of a consortium
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group of viruses responsible for serious diseases such as Dengue, Chikungunya, TBE and viral myocarditis. To copy their genomes, these viruses remodel the cytoplasm of the infected cell to create viral
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of light guidance in HCFs, and thermo- and fluid dynamics under fiber-drawing processes; experimental investigations of material properties of ultra-thin silica membranes (through e.g. transmission-electron
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applications for a PhD position in modeling of the aurora at Jupiter’s moon Ganymede, using advanced numerical simulations. Our department is a hub of pioneering research in space physics, condensed matter
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networks receive large amounts of carbon from terrestrial ecosystems, which is processed and “respired” into carbon dioxide (CO2) and methane (CH4), the most important greenhouse gases. Norther rivers emit
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, high-performance plasma model, Amitis (www.amitiscode.com). This project is primarily based on computer simulations and focuses on exploring how the plumes shape the electromagnetic environment
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applications for a PhD position in modeling the solar wind interaction with Mercury’s magnetosphere using advanced numerical simulations and spacecraft data. Our department is a hub of pioneering research in