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Field
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and will align with the objectives of the aforementioned consortia. These projects work at the interface of the gut microbiome, diet, and immune system to investigate their roles in various diseases
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. Implement Advanced Characterization Techniques to evaluate material performance and device reliability, integrating electronic control systems including DC-DC voltage boosting and maximum power point tracking
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reduction, uncertainty quantification, machine learning, fluid mechanics. Experience with scientific object-oriented programming languages (C++, Python, or Julia) is highly relevant. Knowledge
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for practitioners. Your responsibilities include: Science-based research on the disarmament and non-proliferation of chemical weapons, e.g. on applications of artificial intelligence (AI). Monitoring, tracking and
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areas is expected: numerical analysis, scientific computing, model reduction, uncertainty quantification, machine learning, fluid mechanics. Experience with scientific object-oriented programming
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further three years, subject to probation. The offer is aimed at early career researchers who already have a proven track record of excellence in research in the advertised field. German language courses
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techniques - the evolution of patterns of excitatory and inhibitory connectivity – by tracking dendritic spines and inhibitory synapses – and patterns of neuronal activity in the dorsal CA1 of live mice
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modeling. Central to its objectives is the development of methods for monitoring and culturing tailor-made organoids, assembloids and co-organoids for inter-organ communication towards AI-supported large
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projects and deadlines Scientific track record Fluency in English; German proficiency or the willingness to learn is advantageous Familiarity with data-analysis / scripting tools (e.g. SCiLS Lab, METASPACE
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of excitatory and inhibitory connectivity – by tracking dendritic spines and inhibitory synapses – and patterns of neuronal activity in the dorsal CA1 of live mice performing navigation tasks. Key