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of novel magnetic materials, future generations of particle acceleration, measurements of chiral molecules, free-space communication, and elsewhere. The successful completion of the project will result in
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engineering aspects as well as filtering and signal processing. The work is linked to a series of VINNOVA funded projects, REDO, REDO2 and CORD. The purpose of the research is to understand how different
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to the eukaryotic cytoskeleton.[AB2] [BF3] [AB4] The thesis project will focus on electron microscopy (EM) method development. This by combining cryo-EM sample preparation, single particle and helical 3D
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project will focus on electron microscopy (EM) method development. This by combining cryo-EM sample preparation, single particle and helical 3D reconstruction, as well as in situ electron tomography
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-smokers. The successful candidate will have a leading role in the analysis of bulk- and single cell RNA-seq data, miRNA seq data from scarce particle samples, multi-omics integration and network medicine
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well as nuclear physics. This diversity of research topics allows us to connect fundamental questions about the particles and forces governing our Universe to energy-related research. The methods of our
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our research team for addressing a timely societally relevant problem. Project overview The aim is to unravel the mechanisms, and time scales involved at particle scale, for the formation and failure
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fundamental questions about the particles and forces governing our Universe to energy-related research. The methods of our investigations are also diverse and complementary, and range from theory and computer
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and fusion physics, as well as nuclear physics. This diversity of research topics allows us to connect fundamental questions about the particles and forces governing our Universe to energy-related
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analysed using advanced optical techniques such as: High-speed imaging Laser-induced fluorescence Particle image velocimetry Experimental and numerical results will be evaluated and compared to refine both