We use low-resolution optical lithography joined with solid state dewetting of crystalline, ultra-thin silicon on insulator (c-UT-SOI) to form monocrystalline, atomically smooth, silicon-based Mie resonators in well-controlled large periodic arrays. The dewetted islands have a typical size in the 100 nm range, about one order of magnitude smaller than the etching resolution. Exploiting a 2 μm thick SiO2 layer separating the islands and the underlying bulk silicon wafer, we combine the resonant modes of the antennas with the etalon effect. This approach sets the resonance spectral position and improves the structural colorization and the contrast between scattering maxima and minima of individual resonant antennas. Our results demonstrate that templated dewetting enables the formation of defect-free, faceted islands that are much smaller than the nominal etching resolution and that an appropriate engineering of the substrate improves their scattering properties. These results are relevant to applications in spectral filtering, structural color and beam steering with all-dielectric photonic devices.

Toliopoulos, D., Khoury, M., Bouabdellaoui, M., Granchi, N., Claude, J., Benali, A., et al. (2020). Fabrication of spectrally sharp Si-based dielectric resonators: Combining etaloning with Mie resonances. OPTICS EXPRESS, 28(25), 37734-37742 [10.1364/OE.409001].

Fabrication of spectrally sharp Si-based dielectric resonators: Combining etaloning with Mie resonances

TOLIOPOULOS D.;GURIOLI M.;SANGUINETTI S.;
2020

Abstract

We use low-resolution optical lithography joined with solid state dewetting of crystalline, ultra-thin silicon on insulator (c-UT-SOI) to form monocrystalline, atomically smooth, silicon-based Mie resonators in well-controlled large periodic arrays. The dewetted islands have a typical size in the 100 nm range, about one order of magnitude smaller than the etching resolution. Exploiting a 2 μm thick SiO2 layer separating the islands and the underlying bulk silicon wafer, we combine the resonant modes of the antennas with the etalon effect. This approach sets the resonance spectral position and improves the structural colorization and the contrast between scattering maxima and minima of individual resonant antennas. Our results demonstrate that templated dewetting enables the formation of defect-free, faceted islands that are much smaller than the nominal etching resolution and that an appropriate engineering of the substrate improves their scattering properties. These results are relevant to applications in spectral filtering, structural color and beam steering with all-dielectric photonic devices.
Articolo in rivista - Articolo scientifico
Mie Resonators, dewetting, silicon
English
1-dic-2020
2020
28
25
37734
37742
reserved
Toliopoulos, D., Khoury, M., Bouabdellaoui, M., Granchi, N., Claude, J., Benali, A., et al. (2020). Fabrication of spectrally sharp Si-based dielectric resonators: Combining etaloning with Mie resonances. OPTICS EXPRESS, 28(25), 37734-37742 [10.1364/OE.409001].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/319688
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