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from a variety of perspectives (modular curves, Shimura varieties, moduli spaces of flat structures, …). This project brings together a number of these approaches with applications to problems in
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a limited functionality. The idea is that only a limited number of active array elements are required, and that the overall antenna gain is realized by means of a low-cost construction, e.g. metal
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; The University offers a dynamic ecosystem with enthusiastic colleagues; Your salary and associated conditions are in accordance with the collective labour agreement for Dutch universities (CAO-NU); You will
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specially designed test structures and new tunnelling devices realised in advanced CMOS. Based on a thorough literature review and the outcome of this research, the main challenge will be to (co-)develop
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the complexity sciences. Ability to independently shape and structure research projects, as evidenced in e.g., the research carried out for obtaining the master’s degree. Ability to express complex issues in a
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Are you fascinated by the large role software plays in the control of high-tech systems? Are you eager to contribute to improving supervisory controller development, and making it more structured
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mucin-hydrolase activity in bacterial secretomes and patient samples. A successful candidate will gain training in chemical biology, enzyme biochemistry, structural biology and probe development, while
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on construction and performance indicators. This will require an insight into how to fully automate the discrete topology design synthesis process across system levels and how to learn component descriptions and
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dynamics and learning in artificial and biological neural networks, with the aim of: Unveiling the link between network structure and neural representations. Understanding the impact of structural and
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force microscopy (AFM) and super resolution microscopy to visualize the structure and quantify the location of selected compounds in these films. These approaches will be supported by state-of-the-art