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Field
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atom is a promising route to tailor the electronic structure and to realise artificial matter with exotic electron ground states. Another promising route towards physical implementations of energy-based
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main goals: building and using cohomological field theory (CohFT) structures on logarithmic Gromov-Witten invariants; understanding the geometry of the moduli space of genus 2 curves/abelian surfaces
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and across individuals, populations, and species. To understand this variation, we need to consider how stress responses adapt to the structure of the environment over multiple timescales—through
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stress responses within and across individuals, populations, and species. To understand this variation, we need to consider how stress responses adapt to the structure of the environment over multiple
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will work at the intersection of fundamental science and applied research. Your primary focus will be on employing advanced X-ray and neutron-based characterization techniques to study the dynamic
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adaptive infrastructure that capitalises on natural riverine dynamics. This knowledge will be used to determine scalable design principles for climate-resilient river management across Europe
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of this Research Fellowship is to contribute to a deeper, theory-driven understanding of the global Earth observation (EO) market and industry, identifying its structural dynamics, competitive landscape and long
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high-fidelity CFD–machine learning (CFD–ML) framework capable of efficiently analyzing and optimizing rooftop aerodynamic duct structures for building-integrated wind energy systems. The aim is to push
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states, often next to material phases with charge order. On top of that, creating material atom by atom is a promising route to tailor the electronic structure and to realise artificial matter with exotic
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EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Concrete is one of the most widely used materials in construction, but its production