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Do you want to engage with farmers, policymakers, and other stakeholders to find solutions to the Dutch agri-environmental challenges? Are you eager to learn from practice and theory, and see your
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for in vivo studies. Leveraging recent advances in microscopy and voltage indicators, we can now observe voltage signaling within different compartments of a single cell in live animals, enabling us to
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to drive an extremely weak parity forbidden transition. In order to detect the signals from driving such a weak transition, quantum entangled states will be used that reject external perturbations. Based
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to monitor patients’ health condition continuously and accurately after surgery to measure and evaluate patients’ recovery progress, timely detect and even predict clinical adverse events like delirium
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. This involves dynamic engagement like walking, observing, and handling objects. The relationship between perceptual experiences and the dynamic structures of the multi-sensorial information generated by active
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theoretical modeling, numerical simulation, and experimental validation. Key objectives can include: Developing theoretical and computational models for friction-induced damping in joints and interfaces
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mechanisms during DNA replication. By integrating defined DNA templates, biochemical assays, and mass spectrometry, we will uncover how these structures are detected and processed, and what consequences
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. This project will focus on the design of a panel of chemical probes to detect, characterize, and modulate mucin-hydrolase activity in bacterial secretomes and patient samples. A successful candidate will gain
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will focus on the implementation of chemical tools to detect, characterize, and modulate mucin-hydrolase activity in bacterial secretomes and patient samples. A successful candidate will gain training in
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-classical “squeezed” states of motion. The next frontier is to extend quantum control to sensing applications that include detection of tiny recoils, from molecules of rarefied gases to potential dark matter