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Field
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-driven convection, compressible fluid dynamics, and magnetic fields in ultra-high-resolution models to test whether the discrepancy is primarily a consequence of insufficient realism in earlier modelling
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computing, data analysis and visualization, computational imaging and spectroscopy, AI and compressive sensing, and quantum computing to develop robust solutions that bridge theoretical frameworks with real
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uniaxial creep tests (tension, compression) and comparing the results Characterization of the microstructure–property relationship using optical microscopy, SEM and EBSD Correlation of microstructure and
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of personal protective equipment (e.g. gloves, lab coat, safety glasses), handling compressed gases, and handling equipment with moving/rotating parts. Key Responsibilities: Perform basic laboratory techniques
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include data compression and reconstruction, data movement, data assimilation, surrogate model design, and machine learning algorithms. The position comes with a travel allowance and access to advanced
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fundamental and applied contexts. Using state-of-the-art laboratory facilities, we advance understanding of turbulent incompressible, compressible, and multiphase flows through coordinated research
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based on gas compression become inefficient or impractical, as suitable compressible gases no longer exist and the required infrastructure becomes prohibitively complex and energy intensive. Solid-state
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either a Scandinavian language or in English. If the total size of the attachments exceeds 100 MB, they must be compressed before upload. Please note that information on applicants may be published even if
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develop new techniques for optimisation/modification of the laser pulse parameters, such as pulse focusing, filamentation, chirping, and temporal compression. Validate computational codes and implement
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techniques such as tensile, compression, DSC/TGA, etc. as well as analysis of the data with good knowledge of possible errors. hands-on experience with alloy design strategies, including high-throughput