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cells. Reference number: 20250273 Application deadline: August 10, 2025 Project overview This 5-year PhD project aims to develop a flexible and general model that enables comparison between different
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) To qualify for the position of postdoc, you must hold a doctoral degree awarded no more than three years prior to the application deadline. * Solid background in computational plasma physics and previous
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is carried out in close collaboration with industry and academic partners. Main responsibilities Develop a research plan and design test configurations in collaboration with senior researchers. Perform
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are long vector/matrix multicore architectures. The goal of our team is to develop effective runtime and compiler support to program these architectures using the SYCL, OpenMP and OneDNN programming models
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interactions in liquid xenon detectors, which represent an irreducible background in direct dark matter searches. The expected outcome of this project has several applications to the field of dark matter direct
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field theory aspects to more phenomenological applications. The postdoctoral position is funded by the Swedish Research Council which has financed the project "Flavor from beyond the electroweak scale
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beyond traditional models and bring research closer to real-world clinical applications. About the research project We are offering a 2 year postdoctoral position to an ambitious researcher who is
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must hold a doctoral degree awarded no more than three years prior to the application deadline. * Solid background in computational plasma physics and previous experience in laser plasma physics are
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applications. The successful candidate will collaborate with team members conducting wet lab experiments to characterise the structure–function relationships of lipid formulations of interest, as well as with
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and design nanostructures tailored for aerospace applications. About us The Division of Engineering Materials explores the relationship between technologically important materials and their properties