Title :
Accuracy of Coupled-Mode Theory and Mode-Matching Method in the Analysis of Photonic Crystal Waveguide Perturbations
Author :
Theocharidis, Athanasios ; Kamalakis, Thomas ; Sphicopoulos, Thomas
Author_Institution :
Athens Univ., Athens
Abstract :
In this paper, the accuracy of coupled-mode theory (CMT) and mode-matching (MM) method in estimating the scattering due to geometric perturbations in photonic crystal waveguides (PCWs) is examined. Two CMT formulations are considered: the instantaneous virtual grating and the conventional CMT. The two CMT formulations and the MM method are compared against the finite-difference frequency-domain (FDFD) method combined with the adjoint variable (AV) method. The results obtained with the AV/FDFD and MM methods agree very well, proving the validity of the latter for the sensitivity analysis of PCW structures. It is also deduced that although both CMT formulations lead to almost identical results, they can provide only a first approximation to the perturbation-induced scattering.
Keywords :
coupled mode analysis; finite difference methods; integrated optics; micro-optics; nanotechnology; optical waveguide theory; perturbation theory; photonic crystals; adjoint variable method; coupled-mode theory; finite-difference frequency-domain analysis; geometric perturbations; mode-matching; nanophotonic integrated circuits; perturbation-induced scattering; photonic crystal waveguides; sensitivity analysis; virtual grating; Augmented virtuality; Electromagnetic scattering; Finite difference methods; Frequency domain analysis; Gratings; Mode matching methods; Particle scattering; Photonic crystals; Sensitivity analysis; Waveguide theory; Coupled-mode analysis; mode-matching (MM) methods; perturbation methods; photonic crystal (PC); tolerance analysis;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2007.905220
