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description Understand fundamental drivers of nerve regeneration Design and synthesize novel electroconductive materials for nerve regeneration. Develop and characterize conduit prototypes, assessing
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Multivariate Time Series Analysis, Sequence Modeling, Dimensionality Reduction, Anomaly Detection, Temporal Pattern Recognition, Feature Extraction and Engineering, and Prediction Models. Method development
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of matter and their domain structure far from thermal equilibrium. Job description To this end, they will design and realize their own time-resolved imaging setup. In this, lasers are not just a tool
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100%, Zurich, fixed-term The Ecological Systems Design Group at ETH Zürich is an internationally leading research group in the field of modeling and improving the resource efficiency and
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equilibrium, and the resulting excited state and its relaxation are investigated in in pump-probe experiments with Terahertz fields on the pump and/or probe sites. Candidates design and set up their workplace
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of altermagnetic domains in a variety of materials are central objectives. Candidates design and set up the workplace for their nonlinear-optical experiments. Lasers are not just a tool, but part of the setup where
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also partial load operation is also important to consider in the design phase. The efficiency increase should be achieved by using optimised 3-level inverter topologies, which also allow for to reduction
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design. The position is expected to start in June 2024 and is fully funded for 4 years. Job description You will develop a new methodology for the mechanical preconditioning of rock for underground energy
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systems for next-generation communication and sensing, such as 5G/6G, Space Electronics, Radar, and Imaging. These two PhD positions focus on the designs, implementations, and demonstrations of integrated
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in single cells. Project background Genomics revolution occurred because of the invention of single-molecule sequencing technologies, and consequently it has profoundly improved precision medicine and