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for multilayer tunable metasurfaces that captures the key electromagnetic coupling effects between layers and enables fast prediction of their tunable response without relying solely on full-wave simulations
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Ministero dell’Università e della Ricerca (MUR)-fondi dell’Unione Europea – programma NextGenerationEU. | Italy | 16 days ago
Resonance Energy Transfer (FRET). The main objective is to investigate how a suitably engineered local electromagnetic environment can modulate, in a controlled manner, the radiative and non-radiative
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computational electromagnetism. - Development of reduced-order models for finite element approximations in the time domain of electromagnetism. - Development of numerical methods for the efficient design of
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Documents: Motivation letter explaining the interest in the position, Detailed Curriculum Vitae with transcripts and, degree certificate. Apply online clicking on the “Apply Now” button in this form (https
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funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description The main objective of this project will be to study the electromagnetic susceptibility
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information about the institute can be found at https://www.dlr.de/en/qt/ . The focus of research and transfer in the field of electromagnetic quantum sensors is on: quantum sensor systems for the precise and
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through the EU Research Framework Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description The CSES (China Seismo-Electromagnetic
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structures and metasurfaces designed to control the amplitude, phase, and polarization of electromagnetic fields, enabling new approaches for manipulating vectorial light fields. A major research direction of
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nanofabrication, electromagnetic and micromagnetic computational modelling, theoretical and experimental analysis of electromagnetic properties of metamaterials, as well as the fundamentals of microwave
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extensive electromagnetic modeling to optimize the waveguide structures for minimal loss, efficient confinement, and effective mode matching with external optical components. Particular attention will be