Parametric Analysis of Spectral Fano Lineshape for Plasmonic Waveguide-Coupled Dual Nanoresonator

Author

Paul, Sushmita ; Bera, Mahua ; Ray, Mina

Author_Institution

Appl. Opt. & Photonics Dept., Univ. of Calcutta Technol. Campus, Kolkata, India

Volume

33

Issue

13

fYear

2015

fDate

July1, 1 2015

Firstpage

2824

Lastpage

2830

Abstract

Numerical investigations of metal-dielectric-metal waveguide-coupled dual nanoresonator is demonstrated. Phase dependent resonant behavior along with its complex plane analysis is investigated in wavelength regime. Detailed analysis of the influence of the structural parameters on the resonance curve helps to determine the correct device parameters for different plasmonic applications. This waveguide-coupled plasmonic resonator can be utilized for chemical and biological sensing. In this context, figure of merit related to the asymmetric Fano line shape is redefined, incorporating both differential phase and quality (Q)-factor. Theoretical analysis of differential phase sensitivity in wavelength regime predicts the possibility of detection of refractive index change of the order of 10^-8 RIU.

Keywords

Q-factor; biosensors; chemical sensors; nanophotonics; nanosensors; optical resonators; optical waveguides; plasmonics; refractive index; Q-factor; asymmetric Fano line shape; biological sensing; chemical sensing; complex plane analysis; differential phase; differential phase sensitivity; metal-dielectric-metal waveguide; parametric analysis; phase dependent resonant behavior; plasmonic waveguide-coupled dual nanoresonator; quality factor; refractive index change; resonance curve; spectral Fano lineshape; Cavity resonators; Dielectrics; Interference; Optical waveguides; Plasmons; Reflectivity; Fano resonance; nanoresonators; plasmonics; waveguide;

fLanguage

English

Journal_Title

Lightwave Technology, Journal of

Publisher

ieee

ISSN

0733-8724

Type

jour

DOI

10.1109/JLT.2015.2414449

Filename

7064752