Abstract

An extended Fourier modal method (FMM) for optical dipole radiation in three-dimensional photonic structures is proposed. The core elements of the proposed FMM are the stable bidirectional scattering-matrix algorithm for modeling internal optical emission, and a novel optical-dipole-source model that prevents numerical errors induced by the Gibbs phenomenon. Through the proposed scheme, the FMM is extended to model a wide range of source-embedded photonic structures.

© 2021 Optical Society of Korea

Quantitative modal analysis of optical power flow and energy loss in photonic structures with a dipole emission source

Sujin Choi, Seungin Baek, Dajeong Im, Hyun Kook Kahng, and Hwi Kim
Opt. Express 22(15) 18499-18512 (2014)

Aperiodic-Fourier modal method for analysis of body-of-revolution photonic structures

Florian Bigourdan, Jean-Paul Hugonin, and Philippe Lalanne
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B-spline modal method: A polynomial approach compared to the Fourier modal method

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Through-focus scanning optical microscopy with the Fourier modal method

Shin-woong Park, Gyunam Park, Youngbaek Kim, Joong Hwee Cho, Junho Lee, and Hwi Kim
Opt. Express 26(9) 11649-11657 (2018)

Mathematical modeling of crossed nanophotonic structures with generalized scattering-matrix method and local Fourier modal analysis

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J. Opt. Soc. Am. B 25(4) 518-544 (2008)