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energy through more efficient design of piled foundations. The PhD student will focus on grain scale mechanics experiments and numerical modelling using the Discrete Element Method (DEM) with the aim
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multimodal brain imaging techniques with novel neuromodulation. More specifically, we work to understand the mechanisms of (mal)adaptive plasticity and develop new treatment approaches for different
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generate new insights into the mechanisms, design methods, and reliability of rock anchors. The outcomes will directly support the cost-effective deployment of floating offshore wind and wave energy systems
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of reference (academic) and one from clinical area (Assistant Director of Nursing) • *Research proposal of approx. 3,000 words, to include specifically the following elements: - Abstract (300 words, approx
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outcomes in this age group. Activation of type I interferon (IFN-I) responses are a fundamental component of innate anti-viral immunity, key for activation of early, direct anti-viral protection and later
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of offshore wind energy research. The group is a multidisciplinary team with experience and expertise in the fields of geotechnical engineering, field and laboratory testing, grain-scale mechanics and numerical
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degree (2.1 +/MSc) in mechanical / civil / environmental engineering, physics or a related quantitative field; strong computing skills (Python/MATLAB/GIS); interest in transport or urban futures. Position
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biology, and immunology with therapeutic design and preclinical validation. The work will be carried out in a collaborative and multidisciplinary lab environment with expertise in antimicrobial mechanisms
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of the respective movement that includes a transnational component. While European case studies will be considered, preference will be given to cases of non-European fascist movements. Working knowledge