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Field
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compatible with high-speed imaging over long durations, (2) optimize system control and develop signal processing tools, and (3) apply it to imaging challenges involving organoids and living biological tissues
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coupled neuronal and vascular dynamics of the human retina. Scientific Objective The goal of this PhD project is to develop new optical methods and advanced image-processing approaches to simultaneously
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-term robustness and minimise false alarms. A good understanding of electromagnetics, RF propagation, signal processing, and machine learning would be beneficial. This project offers a unique opportunity
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such as Winlight Optics and Airbus, • and the wider European Mars science community. The project offers a rare opportunity to contribute directly to the development of a cutting-edge spaceborne Doppler
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with an increasing degree of autonomy as skills and experience develop. The Research Assistant will contribute to a specialised research program in quantum information theory and quantum optics, with a
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in quantum information theory and quantum optics, with a focus on quantum channel discrimination for high-resolution spectroscopy and AC field sensing. The project aims to develop theoretical
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processes that arise in light–matter interactions, and to use these frameworks to extract fine spectral or temporal information from weak or structured optical fields. The successful candidate will work
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photon detectors (both SPADs and SNSPDs). - Development of circuits for the treatement of analog signals produced by fast linear optical detectors. - Managment of the electornic elements between the FPGA
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partners from eight different EU countries. All 15 PhD projects are within the overall theme of neuromorphic computing and analog signal processing, targeting applications in the fields of communication
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) modulation, digital signal processing (DSP), and power-efficient IC design. The results of your research could potentially pave the way also for breakthroughs in other applications that demand large arrays