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Europe's leading universities, internationally recognized for high quality in research and education. As a societal institution, we shall contribute to sustainable and democratic development and be
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flood events. The candidate will apply (glacier-)hydrological models to simulate glacier-/snow- mass balance, runoff and extreme events from the past centuries (~1500) to the end of this century, using
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Combinatorics. By integrating these areas, the project seeks to develop innovative computational techniques and theoretical insights that extend the frontiers of both fields. It focuses on leveraging recent
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. The position is part of a small team that works on the development and optimization of algorithms for these problems, as well as proofs on theoretical complexity bounds. Common tasks include: Developing ideas
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development, creating complex, dynamic, interrelated systems that are constantly evolving. Stakeholders in local governance, industry, and community all have a role to play in this transformative process. By
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properties, and how these are controlled by geological processes, will be essential when developing theoretical rock physics models for shales. At macroscale, these models will be important for evaluating seal
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estimating mass loss through sublimation and snow redistribution. The PhD candidate will develop and execute a field campaign focused on observing the role of blowing snow on sublimation and redistribution