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Abstract
This study investigates the optical properties of ion-bombarded Au-SiO2
nanocomposites, focusing on the enhanced Fano resonance observed in these
samples. The formation of nanocrystals and nanocavities due to ion bombardment
leads to significant interactions between plasmonic and vibrational modes, resulting in
pronounced Fano resonance in the strong coupling regime. The study aims to explain
the closer spacing of modes, the elevated baseline absorbance, and the asymmetric
lineshape observed in the ion-bombarded samples. A detailed analysis is provided,
comparing these findings with other sample preparations, such as Au-coated SiO2 and
20 nm Au colloidal on SiO2. The implications of these results for understanding
plasmonic behavior and their potential applications in nanophotonics are discussed
