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and interpretation, including simulations and interaction with theorists Manuscript preparation and presentation of results at international conferences Your Profile Education record in atomic
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to modulate the properties of organic semiconductors Performing optical/electrical measurements to study charge transport and doping effects Implementing the resulting materials and processes into functional
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-responsive and multi-modal operation. The tasks will include: Exploring new doping strategies to modulate the properties of organic semiconductors Performing optical/electrical measurements to study charge
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chemical vapor deposition (CVD) of nanodiamonds, plasma diagnostics and simulation, structural and optical characterization of color centers (e.g., photoluminescence, Raman spectroscopy, electron microscopy
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@ IDRIS, ADASTRA @ CINES) to carry out numerical simulations. The doctoral student will be registered at the École Doctorale d'Astrophysique d'Île-de-France (ED127) and will have to follow the mandatory
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community. We develop and commercialize simulation tools, as well as measurement equipment for all-in-one electro-optical device characterization and for device stability assessment. Our R&D tools are used
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simulation of photonic systems, sensor systems, signal processing and device manufacturing, development of machine learning algorithms, and design of optical communication networks or power consumption and
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emergency managers, robotics developers, and public authorities. Is tested and refined in close collaboration with stakeholders through simulation exercises, workshops, and field studies. The project builds a
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, modelling and simulation of photonic systems, sensor systems, signal processing and device manufacturing, development of machine learning algorithms, and design of optical communication networks or power
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project position is the design and numerical simulation of quantum-dot-based single-photon sources using advanced optical simulation tools. The objective of the PhD2 project is the microfabrication