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mentoring of members of our research network, as well as outreach activities, all generally related to your research topic though not exclusively. You are encouraged to visit the ESA website: https
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their public spaces to become more liveable, inclusive, and climate neutral. The project brings together universities, municipalities, and industry partners across Europe to develop and test digital and
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the possibility to accrue up to 12 extra days through compensation hours. Flexible working hours, a home office allowance, and the option for hybrid working. Freedom and space to shape your research
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invariants; understanding the geometry of the moduli space of genus 2 curves/abelian surfaces, with eventual applications to rational torsion points on abelian surfaces. A particularly important step is
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in the area of finite geometry. Finite geometry studies finite structures that satisfy axioms of classical geometrical spaces such as the Euclidean and projective spaces. In this project, by developing
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to achieving net-zero emissions and keeping our planet within its safe operating space. Yet, these transitions are deeply shaped by social dynamics, by how people cooperate, organize, and sometimes resist change
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atmosphere-ocean-wave mesoscale modelling. Job description Offshore wind energy is expanding rapidly with larger turbines, higher power densities, reduced spacing between wind farms, and deployment in deeper
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Postdoctoral position available in surface functionalization of Life Marker Chips for space-based biosensing. Job description Project Background: The (Origin of) Life Marker Chip (LMCOOL) project develops space
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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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centres; the opportunity to contribute to the Φ-lab strategy and activities. You are encouraged to visit the ESA website: https://www.esa.int/ Field(s) of activity/research for the traineeship The objective