Symmetric Graphene Dielectric Nanowaveguides as Ultra-Compact Photonic Structures

Abstract: A symmetric graphene plasmon waveguide (SGPWG) is proposed here to achieve excellent subwavelength waveguiding performance of mid-infrared waves. The modal properties of the fundamental graphene plasmon mode are investigated by use of the finite element method. Due to the naturally rounded tips, the plasmon mode in SGPWG could achieve a normalized mode field area of ~10−5 (or less) and a figure of merit over 400 by tuning the key geometric structure parameters and the chemical potential of graphene. In additio… Show more

“…To alleviate this conflict, hybrid plasmonic waveguides (HPWs) [15][16][17][18][19][20][21][22][23][24][25][26][27][28] have been proposed and demonstrated, which combine the benefits of both low-loss properties of dielectric fibers and strong field confinement of plasmonic waveguides. However, for practical applications, the loss of these structures is still unacceptably high.…”

Sodium-Based Cylindrical Plasmonic Waveguides in the Near-Infrared

“…To alleviate this conflict, hybrid plasmonic waveguides (HPWs) [15][16][17][18][19][20][21][22][23][24][25][26][27][28] have been proposed and demonstrated, which combine the benefits of both low-loss properties of dielectric fibers and strong field confinement of plasmonic waveguides. However, for practical applications, the loss of these structures is still unacceptably high.…”

Sodium-Based Cylindrical Plasmonic Waveguides in the Near-Infrared

Characteristics of a Symmetric Mid-infrared Graphene Dielectric Hybrid Plasmonic Waveguide with Ultra-deep Subwavelength Confinement

Finite-element Method Analysis of Sodium Based Elliptical Hybrid Plasmonic Waveguides with Ultra-low Loss