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experiments, and parametric investigations. The modelling component will be based, as much as possible, on semi-analytical thermo-mechanical formulations. This is to facilitate calculation accuracy, numerical
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on understanding charge carrier generation, transport, recombination dynamics, and energy transfer mechanisms. These insights will drive the development of highly efficient materials for advanced biomedical imaging
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both technical insight into data modeling and a solid understanding of how real-world engineering data is generated, structured, and used. We are seeking motivated candidates with strong programming
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or advanced micro/nanofabrication methods. Solid understanding and background in condensed matter physics, quantum mechanics, or nanoscale materials science. Hands-on laboratory experience with characterization
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(RF) and microwave-based heating systems for magnetic confinement plasma devices, along with a solid theoretical understanding of wave propagation in plasmas. Hands-on experience with the development
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of research results in scientific journals and conferences. Qualifications: Good understanding of solid mechanics and preferably modeling of damage and/or fracture. Experience with experimental work and data
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potential market failures and prevention mechanisms. You will be combining theoretical analysis with practical applications, involving mathematical modeling, algorithm development, and coding. You should have
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this position, you are expected to have: A solid foundation in concrete technology, mechanics of materials, and structural engineering A strong interest in experimental research Prior exposure to or interest in