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25 April 2002 Converging lower bounds to the photonic bandgap edges
Shiv Raj Vatsya, Suwas K. Nikumb
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Proceedings Volume 4655, Photonic Bandgap Materials and Devices; (2002) https://doi.org/10.1117/12.463897
Event: Symposium on Integrated Optoelectronic Devices, 2002, San Jose, California, United States
Abstract
A photonic band gap is determined by its boundaries, which are frequently computed by the Rayleigh-Ritz method, with the plane wave or the finite element basis functions. This method produces a sequence of upper bounds. Since there are no error estimates available on these approximations, the extent of the band gap is not accurately determined, particularly as this method is also known to suffer from a poor rate of convergence for the cases of interest. We adopt the method of intermediate problems to develop a procedure to calculate the lower bounds to the photonic band gap edges. The lower and the upper bounds supplement each other to determine a band gap with arbitrary accuracy, which is essential for designing the photonic band gap material. Computation of the lower bounds requires only slightly more effort than the upper bounds to produce the approximations with comparable accuracy. An alternative method to determine upper bounds is also developed in the process.
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Shiv Raj Vatsya and Suwas K. Nikumb "Converging lower bounds to the photonic bandgap edges", Proc. SPIE 4655, Photonic Bandgap Materials and Devices, (25 April 2002); https://doi.org/10.1117/12.463897
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KEYWORDS
Chemical elements
Crystals
Dielectrics
Magnetism
Error analysis
Maxwell's equations
Wave propagation
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