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-wavelength size and periodicity. They are capable of controlling the properties of reflected and transmitted light in terms of amplitude, phase and polarization [1, 2]. Over the past decade, metasurfaces have
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computational cost. It can be calibrated (i.e., learned) by including both historical and future simulations, across multiple scenarios simultaneously and in locations that are poorly represented in observational
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. Theoretical evaluation of TPV cell architectures for high-temperature thermal radiation conversion: Implementation of a theoretical model (extended detailed balance) to specify the optimum choices in terms
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the associated cycle for this mission as well as the main obstacles of this reactor (resistance of materials, especially in terms of corrosion resistance). Indeed, one of the challenges
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properties in the solid-state in terms of long optical and spin coherence lifetimes, and are thus among the most promising materials for building light-matter interfaces at the quantum level. These systems
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a specific illumination, alternative original detection can be implemeted in particular to speed up acquisition, but also overcome the obstacles in terms of in-depth observation. In particular
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locally based on its own information. However, this approach often requires access to local information that may not be available for all nodes in the network. As an alternative to this decentralized