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Field
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-like dynamics in synthetic systems remains a major challenge across physics, chemistry, biophysics, and materials science. In this PhD project, you will: Develop an experimental platform to study 3D self
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to provide hands-on support in the lab to research being carried out by MSc students, PhD- and postdoctoral researchers in the QG&QI, QMat and SM research clusters. You will play an important role in the QG&QI
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, and supportive atmosphere, equipped with state-of-the-art research facilities, including dedicated GPU clusters, data servers, and personal GPU-enabled workstations. You will join a multidisciplinary
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, PhD- and postdoctoral researchers in the QG&QI, QMat and SM research clusters. You will play an important role in the QG&QI research cluster, for example building new laser systems, helping new students
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join us as a PhD candidate. You will work in a highly interdisciplinary group, at the intersection of physics, machine learning and theoretical neuroscience. Our group is focused on investigating
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Vacancies PhD position “Synthetic Active Matter: Unravelling 3D Real-Space Dynamics” Key takeaways The project focuses on the experimental realization and study of artificial microswimmers
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related to staff position within a Research Infrastructure? No Offer Description Join a pioneering PhD project exploring how massive stars evolve into gravitational-wave sources. Combine stellar physics
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, biophysics, and materials science. In this PhD project, you will: Develop an experimental platform to study 3D self-organization of active particles. Fabricate and characterize light-driven microswimmers. Use
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fascinated by the incredible capabilities of neural networks? Are you interested in applying theoretical methods to understand computational efficiency in neural systems? If so, come and join us as a PhD
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Do you enjoy working at the interface between behaviour, ecology, and evolution? Then you might be the PhD candidate we are looking for! In this project, you will investigate how swarming behaviour