https://doi.org/10.1140/epjd/e2014-50237-9
Regular Article
Coaxial multi-layer hybrid plasmonic waveguide at subwavelength scale
1
Computer Center of Shanxi University, Taiyuan
030006, P.R.
China
2
College of Physics and Electronics Engineering of Shanxi
University, Taiyuan
030006, P.R.
China
a
e-mail: tianjp@sxu.edu.cn
Received: 24 March 2014
Received in final form: 29 June 2014
Published online: 2 October 2014
A new type of a coaxial multi-layer plasmonic waveguide is proposed. The mode propagation properties are analyzed at the communication working wavelength. Theoretical investigations reveal that the enhanced optical confinement can be achieved in the two low-index dielectric media layers. The mode size can be sub- or deep sub-wavelength scale. The mode propagation loss can be well compensated by replacing the high-index dielectric media with gain material to achieve longer propagation length with better mode confinement. The comparisons of the mode properties between the proposed waveguide and waveguides studied in the published literatures are also considered. These investigations potentially lay the groundwork for the further applications of nanowire type multilayer hybrid structures. This structure could also enable various applications such asnanophotonic waveguides, high-quality nanolasers, and optical trapping and biosensors.
Key words: Clusters and Nanostructures
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag 2014
