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developing and deploying an ocean‑monitoring system for offshore installations. The research will integrate optical and acoustic sensors, autonomous data collection, and advanced perception methods to track
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new things, and ready to think outside the box; can communicate in English at a good level; will be considered as a candidate with favorable background. A candidate with high self-motivation and
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efforts in materials physics and design, quantum optics, sensing and communication, biophysics, plasma physics, and continuum physics. Our research impacts society with new sustainable energy technologies
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processing, quantum communication, and quantum sensing using cutting-edge technologies such as quantum optics, quantum optomechanics, and diamond physics. Our research is primarily focused on fundamental
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capacity radio access technologies such as wireless back-hauling at sub-TeraHertz frequencies, Joint Communication And Sensing, Non Terrestrial Networks and Network as a Sensor. New classes of chipsets will
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biomarker, neuroimaging and eye-tracking data), Write academic papers aimed at high-impact journals, Participate in international conferences and workshops, Collaborate with other team members and our
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techniques to manipulate material functionalities using tailored laser fields and optical cavities. By joining this network, you will contribute to advancements in: Controlling light-matter interaction and the
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of the project Optically Stimulated Luminescence (OSL) is a multi-step phenomenon driven by the transport of electrons and holes across defects in the crystal lattice. Traditional models rely on simplified coupled