A Finite Difference Mode Solver Based on Domain Decomposition

Yue Xia Huang; Ya Yan Lu

doi:10.1364/IPRA.2006.ITuA5

Integrated Photonics Research and Applications/Nanophotonics
Technical Digest (CD) (Optica Publishing Group, 2006),
paper ITuA5
•https://doi.org/10.1364/IPRA.2006.ITuA5

A Finite Difference Mode Solver Based on Domain Decomposition

Yue Xia Huang and Ya Yan Lu

Integrated Photonics Research and Applications 2006

Uncasville, Connecticut United States
24–26 April 2006
ISBN:

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Numerical Methods (ITuA)

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Y. X. Huang and Y. Y. Lu, "A Finite Difference Mode Solver Based on Domain Decomposition," in Integrated Photonics Research and Applications/Nanophotonics, Technical Digest (CD) (Optica Publishing Group, 2006), paper ITuA5.

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Abstract

A finite difference method usually gives rise to large matrix eigenvalue problems when it is used to discretize waveguide mode problems. Iterative methods exist and they typically have a slow convergence. We develop a domain decomposition method in connection with the Rayleigh Quotient Iteration. The method has a fast convergence, so that eigenvalues (of the discretized problem) are computed to full precision in only a few iterations. The required number of operations in each iteration is significantly reduced by the domain decomposition technique.

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