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, materials science, and advanced nanofabrication. This project focuses on the development of functional optical metasurfaces with engineered responses tailored for selective optical camouflage. The targeted
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, materials science, and advanced nanofabrication. This project focuses on the development of functional optical metasurfaces with engineered responses tailored for selective optical camouflage. The targeted
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experimental data in collaboration with clinicians from the Paris Eye Imaging group (Quinze-Vingts National Ophthalmology Hospital); Publish results in international peer-reviewed journals and present findings
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of imaging, both in acquisition speed and imaging depth, for applications ranging from biological systems to nanomaterials. This research is inherently interdisciplinary, combining expertise in optics
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, modelling and biological applications. Depending on their background, which may be in physics/optics or in physical chemistry with expertise in photophysics, the recruited researcher will contribute
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to experimental design, modelling of temporal encoding schemes, and data analysis, within a highly interdisciplinary environment combining optics, photophysics, signal processing and biology. The person will
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the BERNARDO project, funded by the PEPR LUMA program (https://www.pepr-luma.fr/ ). The project focuses on chiroptical interactions, which play an essential role in fields such as biomolecular recognition
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generation of laser sources. These devices are based on a physical separation between electrical addressing and optical emission, enabling the design of addressable Tamm lasers with high potential
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, and analysis of multicolor images. - Advanced optical microscopy (nanoscopy) - Image acquisition and analysis - Microfluidics - Fluorescent labeling protocol - Multimodal characterization
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polymer blending and colloidal lithography. Low-cost fabrication processes will be developed and optimized, and their performance will be analyzed using optical spectroscopy. Results will then be compared