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Your Job: Aerosol particles act as ice nucleating particles, providing surface for water vapour to deposit and freeze into ice particles. Formation of cirrus clouds and subsequent sedimentation
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Infrastructure? No Offer Description Area of research: PHD Thesis Job description: Your Job: Aerosol particles act as ice nucleating particles, providing surface for water vapour to deposit and freeze into ice
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for magnetic particle transport in fluid flows and validating the results through a laboratory-scale reactor. It combines numerical modeling, AI methods, and hands-on experimental work in the context of advanced
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. Numerical models will be used to trace energetic particles from their sources in thunderclouds to aircraft and the relevant interaction with avionics. The main objective is to understand the failure risk of
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gases. As energetic particles propagate through air, they interact with the air molecules and produce radicals, ions and excited species which can alter the chemical composition of the atmosphere
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, Kelvin probe microscopy, machine learning augmented analysis techniques) Experimental and computational analysis of transport and the reaction of surfaces and particles with reducing and oxidizing gas
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Max Planck Institute for Multidisciplinary Sciences, Göttingen | Gottingen, Niedersachsen | Germany | 41 minutes ago
relevant particles will be established using cellular starting material. The influence of aggregation modulators on the structure of the α-Synuclein-lipid complexes will be part of the project. The Doctoral
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physics and cosmology. The research team includes leading scientists from mathematics, particle physics, astrophysics, and cosmology at the University of Hamburg and DESY. We are going to use astrophysical
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candidate to investigate how pathogens and antimicrobial resistance (AMR) genes are distributed via dust particles in and around agricultural facilities. This interdisciplinary project is conducted in close
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-goettingen.de/en/644546.html?filters={%22vollzeit%22:[],%22befristet%22:[],%22gruppe%22:[],%22besoldGrp%22:[]}&details=76158 . Contact: Chenchang Zhu, +495513927799 Email: Postal Mail: Mathematisches Institut