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duties, up to a maximum of 20 per cent of full-time. Your research focus will be on models and simulations of reactive gas flows, with applications in thin film depositions. Thin films form the basis
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to reduce the complexity in simulating lake physical dynamics at scale. Borrowing from numerical methods used to design wind turbines and understand turbulent combustion in jet engines, this research aims
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-accelerated micromagnetic simulations to study and develop spin Hall nano-oscillators. Prof. Åkerman’s team currently leads a major project funded by the Swedish Research Council (VR) through a Distinguished
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the Swedish Center for Sustainable Hydropower (SVC). SVC promotes collaborative research across universities and industry to support the future of hydropower. Simulations will be performed using resources from
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research groups representing complementary expertise in biophysical methods: Mikael Akke (NMR spectroscopy), Pär Söderhjelm (molecular dynamics simulations and computational chemistry) and Sara Linse
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involve established software tools, such as: CHEMKIN-PRO for steady one-dimensional simulations of laminar flames with detailed chemistry. CONVERGE for unsteady three-dimensional simulations of turbulent
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genetic data (e.g. from genotyping). You will implement and evaluate selection methods: Test and optimize new methods for precision breeding in practical or simulated improvement programs. You will work
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We are pleased to announce a postdoctoral position focusing on developing advanced computational techniques to reduce the complexity in simulating lake physical dynamics at scale. Borrowing from
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, performing basic engineering calculations (flow and pressure drop in perforated pipes, estimation of air demand), assisting in preliminary system design, and supporting simple numerical simulations. The role
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design, marine structures, hydrodynamics, safety, and maritime operations. We combine fundamental and applied research, including simulation methods, tools and metocean data, to improve ship safety and