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land-use and socio-economic simulation models to inform land use planning and policy still inadequately capture many of the benefits of nature restoration, especially those that emerge through spatial
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Chimeroid technologies, single-cell and spatial transcriptomics, and functional approaches to understand how developmental timing contributes to human cortical specialization and vulnerability
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. The resulting datasets are high‑dimensional and spatially rich, posing significant analytical challenges. The generation of the high-dimensional images themselves follows a complex pre-processing from the raw
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land use pressures obtaining land for nature restoration may be difficult and may involve resistance. In other locations the added value of restoration may be smaller. Having insight in the spatial
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towards more sustainable trajectories and enriches the post-growth debate in spatial planning. Under the guidance of senior members of the project, based at Utrecht University, the University of Bern
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PhD position in Spatial Planning Faculty: Faculty of Geosciences Department: Department of Human Geography and Spatial Planning Hours per week: 36 to 40 Application deadline: 8 May 2026 Apply
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’ to write patterns of skyrmions, and explore their dynamics with a suite of state-of-the-art time and spatially resolved optical and electrical tools. Research will include femtosecond magneto-optical
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). Your project combines concepts from nonlinear optics, holographic imaging, femtosecond spectroscopy with DUV spectroscopy and microscopy at the absolute limits of spatial resolution and sensitivity. We
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imaging with DUV spectroscopy and nanophotonics at the absolute limits of spatial resolution and sensitivity. We have a clear yet ambitious goal: To develop the most sophisticated and versatile DUV imaging
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of spatial representations and embeddings, exploring how spatial abstractions and learned representations structure similarity, proximity, and relevance in decision-making processes. The PhD will be conducted