CORDIS Project
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This project aims to bridge the gap between classical electromagnetism and quantum mechanics in nanophotonics. It focuses on developing a theoretical framework to understand light-matter interactions in nanodevices with angstrom-scale features, essential for advancing nanophotonic technology.
The boost experienced by nanophotonics research during the past decade has been driven by the ability of surface plasmons to collect and concentrate light into deeply sub-wavelength volumes.
The hybrid nature of surface plasmons (which emerge from the coupling of photons to the collective oscillations of conduction electrons in metals) has allowed an unprecedented control of light at the nanoscale, a regime inaccessible to standard photonic technology.
This scientific success has been possible d…
UNIVERSIDAD AUTONOMA DE MADRID
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