Abstract
In this paper, a thin metasurface perfect absorber based on refractory titanium nitride (TiN) is proposed. The size parameter of the metasurface is investigated based on the finite difference time domain method and transfer matrix method. With only a 15-nm-thick TiN layer inside the silica/TiN/silica stacks standing on the TiN substrate, the near-perfect absorption throughout the visible regime is realized. The cross-talk between the upper and lower dielectric layers enables the broadening of the absorption peak. After patterning the thin film into a nanodisk array, the resonances from the nanodisk array emerge to broaden the high absorption bandwidth. As a result, the proposed metasurface achieves perfect absorption in the waveband from 400 to 2000 nm with an average absorption of 95% and polarization-insensitivity under the normal incidence. The proposed metasurface maintains average absorbance of 90% up to 50-degree oblique incidence for unpolarized light. Our work shows promising potential in the application of solar energy harvesting and other applications requiring refractory metasurfaces.
Highlights
IntroductionThe narrowband absorbers can find applications as sensors [2], filters [3], display [4], etc., while, in the applications of solar energy harvesting [5], thermal emitters [6,7], radiative cooling [8,9], cloaking [10], etc., broadband absorbers are preferred
We report a thin metasurface perfect absorber based on refractory titanium nitride
The stacks with patterned titanium nitride (TiN) layer achieve an average absorbance of 95%
Summary
The narrowband absorbers can find applications as sensors [2], filters [3], display [4], etc., while, in the applications of solar energy harvesting [5], thermal emitters [6,7], radiative cooling [8,9], cloaking [10], etc., broadband absorbers are preferred. Noble metals, such as gold and silver, have been intensively researched in various absorber-related works [11,12].
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