Experimental and theoretical investigations of an air-slot coupler between dielectric and plasmonic waveguides.
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The experimental results validate the theoretical calculation results of the proposed coupler and investigated the sensitivity of the design to different fabrication challenges that may result in changing the width and length of the targeted optimum values in the design.Abstract:
In this paper, we experimentally show an effective method of coupling light between dielectric waveguides and metal-dielectric-metal plasmonic waveguides using an air-slot waveguide that extends into both types of waveguides. Our experimental results validate the theoretical calculation results of the proposed coupler. In addition, we investigated the sensitivity of our design to different fabrication challenges that may result in changing the width and length of the targeted optimum values in our design. Numerical simulation results show that the cut-off wavelength can be shifted by either changing the width of the dielectric or slot waveguide. The shift occurs because, as the waveguide’s width changes, the mode size changes and consequently the impedance mismatch between the dielectric and slot waveguide changes. We also found that changing the position of the air-slot waveguide with respect to the center of the dielectric waveguide resulted in a reduction in the coupling efficiency due to the reduction in the overlapped area between the mode supported by the slot waveguide and that of the dielectric waveguide.read more
Citations
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Water Cladded Plasmonic Slot Waveguide Vertically Coupled With Si 3 N 4 Photonics
George Dabos,Dimitra Ketzaki,A. Manolis,Evaggelia Chatzianagnostou,Laurent Markey,Jean-Claude Weeber,Alain Dereux,Anna Lena Giesecke,Caroline Porschatis,Bartos Chmielak,Dimitris Tsiokos,Nikos Pleros +11 more
TL;DR: In this paper, a water cladded plasmo-photonic waveguide was proposed to enable the excitation of a pure plasmonic mode within a 210nm wide slot at 1550nm.
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Design and Analysis of a Novel Air Gap–Based Semi-elliptical Nanoplasmonic Coupler
TL;DR: In this article, an air gap-based nanoplasmonic semi-elliptical structure of silicon (Si) is used as a coupler, which connects these waveguides.
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Ultra-compact broadband 3-db metal–dielectric-metal plasmonic power splitter
TL;DR: In this paper, two different designs of 1×2 3dB small-footprint plasmonic power splitters are presented. But they are not considered essential components in optical interconnects.
Journal ArticleDOI
Silicon-Based Optoelectronics Enhanced by Hybrid Plasmon Polaritons: Bridging Dielectric Photonics and Nanoplasmonics
TL;DR: In this paper, the authors discuss methods to enhance silicon-based optoelectronics by hybrid plasmon polaritons and summarize some recently reported designs, which can overcome the conventional diffraction limit of light.
Proceedings ArticleDOI
Design and Analysis of a Semi-Elliptical Ultra-Compact Nano-plasmonic Coupler
Abstract: In this paper, we propose a novel design and demonstrate the analysis of a highly efficient three-dimensional nano-plasmonic semi-elliptical coupler between a dielectric waveguide and metal-dielectric-metal (MDM) plasmonic waveguides. Numerical simulation yields coupling efficiency up to ∼78% at the optical communication wavelength of 1550 nm. The dependence of coupling efficiency has been studied by changing the width of the plasmonic waveguide and the length of the semi-minor axis. Based on these results, the optimum dimensions of the semi-elliptical coupler have been determined. In both scenario, the transmission response of the proposed structure is found to be broadband. Using optimum dimensions, we have analyzed coupling efficiency, reflection coefficient, return loss and voltage standing wave ratio (VSWR) at a broad range of input signal wavelengths.
References
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