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Proceedings Paper

Complex Fourier factorization method applied in modeling optical metamaterials based on 2D periodic nanostructures
Author(s): Roman Antos; Martin Veis; Stefan Visnovsky
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Paper Abstract

The rigorous coupled wave theory dealing with optics of discontinuous two-dimensional (2D) periodic structures is reformulated by using the complex Fourier factorization method, which is a generalized implementation of the fast Fourier factorization rules. The modified approach yields considerably improved convergence properties, as shown on three samples of 2D gratingsmade as periodically arranged cylindrical holes on the top of quartz, silicon, and gold substrates. The method can also be applied to the calculation of 2D photonic band-gap structures or nonperiodic cylindrical devices, and can be generalized to elements with arbitrary cross-sections.

Paper Details

Date Published: 12 May 2009
PDF: 12 pages
Proc. SPIE 7353, Metamaterials IV, 73531C (12 May 2009); doi: 10.1117/12.826859
Show Author Affiliations
Roman Antos, Charles Univ. (Czech Republic)
Martin Veis, Charles Univ. (Czech Republic)
Stefan Visnovsky, Charles Univ. (Czech Republic)

Published in SPIE Proceedings Vol. 7353:
Metamaterials IV
Vladimir Kuzmiak; Peter Markos; Tomasz Szoplik, Editor(s)

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