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research in advanced computing solutions for 6G wireless networks. This includes the development, integration, and optimization of Kubernetes for specialized hardware platforms. You will actively engage in
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optimization of imaging parameters. Overall, this project aims to explore, develop and integrate advanced imaging modalities towards their use for biological samples. Work tasks The main task of the position is
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mechanics, numerical methods, microstructural mechanics, structural optimization, and experimental methods. The department also has strong activity in X-ray and neutron methods for materials research. Project
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recently identified signaling pathway by Rolny and colleagues that controls the tumor-promoting functions of TAMs has opened up new avenues for targeted immunotherapy. The project has a strong translational
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. The position is part of a large initiative funded by KAW to develop a comprehensive platform that will enable, for the first time, deterministic control of atomic configurations in UWBG materials. The project
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powerful tool for studying biomolecular interactions, nanoparticle assembly, and other structural changes in real time. Microfluidic devices enable precise control over rapid mixing, optimised sample
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, integration of new equipment, automation of experiments, development of control systems, etc. You are expected to participate in giving support to the user groups, with the chance to get involved in
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to physical conditions and biological activity, using video recordings from both reef sites and comparable control areas. Within this position as post-doc you will be responsible for developing tools
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Medical Science and involves close collaboration with: The Halberg Group (University of Copenhagen) – experts in insect physiology and osmoregulatory control The Collin Lab (Lund University) – leaders in