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/or academic coursework, which can confirm the candidate's training in the methods listed above. Please note that we exclusively accept applications submitted through our online application portal
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field Strong background in thin film magnetism and/or scanning probe microscopy Interest in quantitative nanoscale measurements and the development of advanced instrumentation and methods Proven ability
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statistical analysis plans Develop statistical code for harmonized data analyses across countries Coordinate site-specific analyses and combine results using meta-analytic methods Draft manuscripts
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methods and systems to overcome the limitations of today’s materials processing technologies. One particular area of interest is the design and fabrication of active structures through hybrid production
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Design and microfabrication of soft optical fibers densely distributed with actuators Develop actuator multiplexing methods for individual addressability Demonstration for advanced robotic functions as
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analysis methods for realistic CO2 electrocatalysis, with a focus on parallel investigations and accelerated aging. Dissect degradation processes of CO2 electroreduction catalyst, electrodes, and ionomer
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/ exposure to tensor network methods or and/or AI/LLM for physics would be a positive addition. For this postdoctoral position, we intend to focus on topological two-dimensional materials, flat bands, and
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project aimed at advancing our single-cell ribosome profiling technologies in cancer. For further information about the lab, please visit https://www.sendoellab.org/. The Institute for Regenerative Medicine
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comparing supervised and unsupervised methods (e.g., regularized regression, tree-based models, ensemble methods, clustering, dimensionality reduction) and deep learning approaches Developing and applying
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(ALD) reactors. The range of simulations focuses on finite element methods and can include Monte Carlo based simulation approaches and continuum modelling. Verification of simulation results against