Fully complementary metal-oxide-semiconductor compatible nanoplasmonic slot waveguides for silicon electronic photonic integrated circuits

Horizontal Al/SiO2/Si/SiO2/Al nanoplasmonic slot waveguides with the SiO2 width at each side of ∼15 nm and the Si core width of ∼136–43 nm were fabricated using a fully silicon complementary metal-oxide-semiconductor compatible technology. The propagation losses were measured to be ∼1.07–1.63 dB/μm...

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Bibliographic Details
Published in:Applied physics letters 2011-01, Vol.98 (2)
Main Authors: Zhu, Shiyang, Liow, T. Y., Lo, G. Q., Kwong, D. L.
Format: Article
Language:English
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Summary:Horizontal Al/SiO2/Si/SiO2/Al nanoplasmonic slot waveguides with the SiO2 width at each side of ∼15 nm and the Si core width of ∼136–43 nm were fabricated using a fully silicon complementary metal-oxide-semiconductor compatible technology. The propagation losses were measured to be ∼1.07–1.63 dB/μm at the telecommunication wavelength of 1550 nm, in agreement with those predicted from numerical simulation. A simple tapered coupler with length of ∼0.3–1 μm provides a high coupling efficiency of ∼−0.6–−1.5 dB between the plasmonic waveguide and the conventional Si dielectric waveguide. The plasmonic slot waveguide can achieve a low-loss ultracompact bend. A direct 90° bend was demonstrated to have the pure bending loss as low as ∼0.2–0.4 dB. The losses of propagation, coupling, and bending depend weakly on wavelength in the c-band. These results demonstrate the potential for seamless integration of functional plasmonic devices in existing silicon electronic photonic integrated circuits.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.3537964