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industrial partners, aiming to establish a new paradigm for nanophotonic fiber sensing. Modern industry increasingly relies on real-time monitoring of various quantities, such as pressure, temperature, and
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processes strongly impact global climate. Advanced ocean observations allow us to decipher the current and future functioning of the ocean. Furthermore, seafloor sediments have recorded past changes in
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types of data, including omics data, analytical data, imaging data and ecological data. Through this position, we aim to strengthen research and methodological innovation capacities for data analysis and
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, and carbon–nitrogen allocation using advanced tools such as single-cell transcriptomics, root imaging, isotope tracing, gas-exchange, and leaf spectroscopy. The projects aim to uncover physiological
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, field). You are eager to learn new techniques, whether in plant physiology, genomics, or high-throughput phenotyping, and you enjoy connecting detailed trait measurements to the bigger picture of crop
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predictions (priors), which are integrated with incoming sensory signals to form posterior beliefs that then update future predictions. In the context of movement, this process supports adaptive behaviour. In
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clock interrogation zones that are in one vacuum chamber. Clock interrogation can always be executed in at least one zone, while others are reloaded with atoms, enabling continuous operation. With
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. Research Focus The projects aim to develop advanced computational methods for analyzing large-scale, multimodal biomedical data—including single-cell and spatial omics, imaging, and clinical datasets. Key
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other viruses, including the coronaviruses, using the latest imaging techniques to track how they replicate. He is also investigating the ‘arms race’ between the virus and the host’s immune system, how
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towards prototype development. You will work in the research groups of Roos Masereeuw (division of Pharmacology) and Tina Vermonden (division of Pharmaceutics), bridging two divisions and fostering