DocumentCode
743928
Title
A Hybrid Wedge-To-Wedge Plasmonic Waveguide With Low Loss Propagation and Ultra-Deep-Nanoscale Mode Confinement
Author
Youqiao Ma ; Farrell, Gerald ; Semenova, Yuliya ; Qiang Wu
Author_Institution
Photonics Res. Centre, Dublin Inst. of Technol., Dublin, Ireland
Volume
33
Issue
18
fYear
2015
Firstpage
3827
Lastpage
3835
Abstract
The well-known tradeoff between the propagation loss and mode confinement is a critical consideration for the plasmonic waveguide structures. Aiming to overcome this limitation, in this paper, we propose a compact plasmonic waveguide consisting of two identical dielectric wedge waveguides symmetrically placed on each side of a nanowedge-patterned thin metal film. The systematical analysis has demonstrated that the light can be confined to approximate 3000th of the diffraction spot size (ranging from λ2/10 604 to λ2 /972) without sacrificing the propagation length (ranging from 1680 to 4724 μm). Compared to the recent published structure which achieved the best tradeoff, to the best of our knowledge, the proposed waveguide could achieve a 9-fold enhanced mode confinement for the same propagation length and a 2.4-fold outspread propagation length for the same mode confinement.
Keywords
light diffraction; nanopatterning; nanophotonics; optical losses; optical waveguides; plasmonics; radiation pressure; surface plasmons; thin films; dielectric wedge waveguides; diffraction spot size; hybrid wedge-to-wedge plasmonic waveguide; low loss propagation; nanowedge-patterned thin metal film; ultra-deep-nanoscale mode confinement; Couplings; Dielectrics; Metals; Optical waveguides; Plasmons; Silicon; Nanophotonics waveguide; nano-wedge; nanophotonics waveguide; surface Plasmon polaritons; surface plasmon polaritons;
fLanguage
English
Journal_Title
Lightwave Technology, Journal of
Publisher
ieee
ISSN
0733-8724
Type
jour
DOI
10.1109/JLT.2015.2445571
Filename
7123572
Link To Document