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Description of the workplace Automatic Control is an exciting and broad subject, covering both deep mathematics and hands-on engineering. Historically it has been instrumental in many areas, from
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200-kHz, 6-fs OPCPA laser system. By manipulating the pulses’ CEP, the number of attosecond pulses in the train can be controlled. We will study the interaction of these pulses with atomic and molecular
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-of-the-art computational resources, enabling advanced simulations and modeling. Moreover, we actively collaborate with leading experts in laser diagnostics, automatic control, heat transfer, and life cycle
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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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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