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Build large-scale AI to map and monitor plankton biodiversity, ecosystem health and carbon flux, facilitating decision‑making in the face of climate change. Hosted at the Max Delbrück Center
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Max Planck Institute for Astronomy, Heidelberg | Heidelberg, Baden W rttemberg | Germany | about 5 hours ago
will make use of new ALMA, JWST, and HST observations and will be done in the context of the PHANGS collaboration. The successful candidates will work on characterizing and understanding the properties
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16.06.2025 Application deadline: 15.07.2025 Our group builds artificial intelligence systems for discovering new concepts, experiments and ideas in physics. To accelerate this effort, we need your
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government, administration and business in their efforts to adapt to climate change. It builds up a national and international network structure in order to integrate existing competences and knowledge, and to
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science-based prototype products and services in support to government, administration and business in their efforts to adapt to climate change. It builds up a national and international network structure
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=finley&sub_page=research The SNQS group performs research funded by diverse sources including the German Science Foundation (DFG), the Federal Ministry for Research, Technology and Space (BMFTR
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engineer novel materials inspired by biological examples. We will build phase-separated biomaterials from the bottom up and quantify them using precision experimental techniques. Cells operate by
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and function of matter, from the smallest particles of the universe to the building blocks of life. In this way, DESY contributes to solving the major questions and urgent challenges facing science
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intensity and broad energy spectrum, make these sources ideally suited for in situ and operando investigations of advanced materials. At the same time, recent developments in lab-based XAS spectrometers
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research focuses on the study of quantum magnetism at the atomic scale. We build artificial quantum architectures from single atoms and molecules on surfaces and on probe tips, control their spin states, and