Abstract

The optical performances of graphene have been already studied in the visible and infrared spectral regions in terms of protection and antireflection properties. In the ultraviolet range, the reflectance properties have been only partially investigated at the normal incidence configuration. On the other hand, graphene optical response at ultraviolet wavelengths is challenging due to the absorption increase, the Van Hove regions and the excitons effects. Thus, the determination of the optical constants and the prediction of the performances is debated. In this paper, experimental angular reflectance investigations of SiO2/Si specimens with a monolayer graphene deposited on, are reported at different ultraviolet lines against the incidence angle. The reflectance measurements are here discussed in the context of graphene properties and physical effects at the selected lines. Optical elements based on graphene/SiO2/Si are suggested as high quality, potentially time–stable reflective components. One possible application in UV–pump IR–probe arrangements is proposed in the light of the experimental and modeled results.

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