Paper
30 December 2019 Design of CMOS compatible plasmonic color filter for high selectivity
Ayesha Shaukat, Khalid Arif
Author Affiliations +
Abstract
In this paper a theoretical study of highly selective plasmonic color filters is demonstrated. The filter design consist of a perforated aluminium film, where nanoholes are arranged in a square lattice. A hybrid substrate is implemented as a dielectric layer which allows high selectivity and minimum spectral cross talk. The impact of the hole periodicity, thicknesses of Si3N4 and metallic layer on the device performance is highlighted. The optical resonance transmission properties of the simulated plasmonic color filter including resonance position, transmission efficiency, figure of merit, and spectral bandwidth of resonance peak are also analyzed thoroughly.
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Ayesha Shaukat and Khalid Arif "Design of CMOS compatible plasmonic color filter for high selectivity", Proc. SPIE 11200, AOS Australian Conference on Optical Fibre Technology (ACOFT) and Australian Conference on Optics, Lasers, and Spectroscopy (ACOLS) 2019, 112002O (30 December 2019); https://doi.org/10.1117/12.2539266
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KEYWORDS
Optical filters

Plasmonics

Dielectrics

Aluminum

Silicon

CMOS technology

Extraordinary optical transmission

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