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chemical transformation of city plumes in Bremen Research topic and tasks The harmful effects of air pollutants and PM2.5 particles on human health are well-documented. However, the impacts of measures aimed
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beyond those of the individual building blocks. To date, these structure-property relationships of the assembled particles are not adequately understood. The technological visions of these new materials
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. The candidate will use novel particle image velocimetry measurements within the first millimeters to centimeters above and below surface waves, to quantify, understand and parametrize wind-wave energy flux
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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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on decoding the structure 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
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the German Research Foundation, and is conducted together with partners from the Universities of Hamburg and Bremen, as well as others. The candidate will use novel particle image velocimetry measurements
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Transport and chemical transformation of city plumes in Bremen Research topic and tasks The harmful effects of air pollutants and PM2.5 particles on human health are well-documented. However, the impacts
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the physics case and develops detector technologies and concepts for future accelerator-based particle physics experiments. lt has strong expertise in the preparations for a future electron-positron collider
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Anemometry (LDA), and Particle Image Velocimetry (PIV). Extend existing in-house wind field models (based on stochastic differential equations such as Langevin or Fokker-Planck types). Integrate novel
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dynamics of complex systems particle physics semi-conductor physics theoretical physics X-ray physics For further information, please visit our website: http://www.uni-goettingen.de/en/488933.html Course