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magnetic components of the dynamo are to be simulated numerically. Your profile: Potential candidates (m/w/div) should hold a Masters or Diploma degree in Materials Science, Mechanical Engineering
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Leibniz Institute of Plant Biochemistry (IPB) in Halle (Saale), Germany, where we are offering a fully-funded PhD position within the DFG Priority Programme SPP2363: “Molecular Machine Learning”. About the
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. While communication and social networks are thought to influence one another, the mechanisms underlying this interplay remain poorly understood. Using cutting edge bio-logging technology, this project
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? Join us at the Leibniz Institute of Plant Biochemistry (IPB) in Halle (Saale), Germany, where we are offering a fully-funded PhD position within the DFG Priority Programme SPP2363: “Molecular Machine
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Center (CRC) 1690 “Disease Mechanisms and Functional Restoration of Sensory and Motor Systems”. In our project, we study the disease mechanisms of human hearing loss. Based on our cooperative clinical work
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and motivated theoretical biological physicists who ask how physical mechanisms shape functional biological patterns. We combine statistical physics, nonlinear dynamics, mathematical modeling and data
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sensors systems, which involves the characterisation and optimisation of near- and mid-infrared lasers, paired with work on the optical and mechanical packaging of these sources. Furthermore, DC7 will work
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of Neurophysiology). We are interested in the cellular and network mechanisms responsible for the generation of spike and wave discharges, the electrophysiological hallmark of absence epilepsy. The project is aimed
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Leibniz Institute for Natural Product Research and Infection Biology - Hans Knöll Institute • | Jena, Th ringen | Germany | 1 day ago
in English and German language courses. Full-time / part-time full-time Programme duration 6 semesters, 8 semesters Beginning Only for doctoral programmes: any time Application deadline Please see our
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elucidate the molecular makeup and phenotypes of these tumors. The advertised project focuses on a comprehensive analysis of the mechanisms by which bacterial species and their metabolites impact on mutation