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and planetary properties through forward modelling of observables, such as synthetic spectra and light curves All candidates and projects will have to undergo a check versus national export, sanctions
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of Norway. GREP is to take exoplanet and exoplanetary system formation modelling to the next level. Several thousands of exoplanets have been discovered in more than 5000 stellar systems, and several
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of interdisciplinary initiatives across the university. Department of Computer Science has an available 100% temporary position as Phd fellow in mathematical modelling. Your main duties and areas of responsibility
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. Documented ability to connect stellar and planetary properties through forward modelling of observables, such as synthetic spectra and light curves All candidates and projects will have to undergo a check
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, GenAI models act as probabilistic black boxes, often producing plausible but factually incorrect information without source attribution. This poses unacceptable risks particularly in high-stakes domains
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-Planets” (GREP) project funded by the Research Council of Norway. GREP is to take exoplanet and exoplanetary system formation modelling to the next level. Several thousands of exoplanets have been
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theoretical models by extending newly derived theoretical frameworks from the ‘OceanCoupling ’ project and numerically implement the theoretical models. We are looking for candidates who can start as soon as
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. Existing methods rely on fixed data and static models, which struggle to adapt to real-time changes and unpredictable conditions. This limits the ability to optimize energy storage use for critical
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the complexity further to effectively plan their movement and deployment. Existing methods rely on fixed data and static models, which struggle to adapt to real-time changes and unpredictable conditions. This
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PhD Research Fellow in Theoretical and Computational Active Matter Physics for Glioblastoma Invasion
other PhD students, combining theory, computation, and experiments to model and manipulate the physical forces experienced by invading cancer cells. The overarching goal is to identify biomechanical “weak