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Field
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to recruit a Post-Doctoral Associate (PDA) who will conduct research on the physical layer design of optical wireless communication systems as enablers of wireless access/backhaul of 6G and beyond networks
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for the modulation of their optical properties under an applied voltage. The EC- LIPSE projet concerns the eco-design and development of innovative sustainable methods for the fabrication of efficient optically active
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(PDA) to engage in cutting-edge research on channel modeling and characterization for communication and sensing in emerging spectrum for 6G and beyond, with a focus on the FR3, THz and optical frequency
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experiments and determine the feasibility of delivering a cell-loaded scaffold into the trabecular meshwork space and assess its viability, retention, and functional integration using ex vivo eye globes and
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characterization and large-scale component testing, including the setup and use of conventional and advanced sensing technologies (e.g., displacement/strain sensors, DIC, fiber-optic sensing). Analyze experimental
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mediated entanglement for distributed quantum networks. Optical readout of electronic and nuclear spins on the single spin level can give rise to nanoscale sensors of magnetic field, temperature and pressure