Guided plasmon modes of triangular and inverted triangular cross section silver nanoridges

TL;DR

This paper investigates guided plasmon modes in silver nanoridges with triangular and inverted triangular cross sections, analyzing their mode profiles, dispersion, and performance metrics to optimize waveguide design.

Contribution

It introduces a detailed analysis of plasmon modes in triangular and inverted triangular nanoridge waveguides, highlighting design conditions for improved propagation and figure-of-merit.

Findings

Triangular cross section nanoridges can achieve longer propagation distances.

Inverted triangular nanoridges exhibit hybrid modes with poorer performance.

Mode characteristics depend strongly on triangle height and depth.

Abstract

Propagating two-dimensional plasmon modes guided along silver nanoridge waveguides with triangular and inverted triangular cross sections are investigated in this paper. Mode field profiles, dispersion curves, propagation distances, and figure-of-merits of the plasmon ridge modes are calculated for silver nanoridge waveguides with various triangular and inverted triangular waveguide cross sections. It is found that the triangular cross section nanoridge waveguide, if designed properly, can have longer propagation distance and higher figure-of-merit than the flat-top nanoridge waveguide of the same width. When the triangle height of the nanoridge is high, the mode approaches to the small angle wedge mode. An inverted triangular cross section nanoridge mode can be considered as a hybrid mode of two metal wedge plasmon modes. When inverted triangle depth increases, the propagation distance and the figure-of-merit decrease dramatically, suggesting the poorer performance when compared to the flat-top nanoridge plasmon waveguide.