Using the Accompanying Window in BOR-FDTD Method for the Calculation of Conduct Precursor in the Dielectric Waveguide

Keywords: method of finite differences in the time domain for bodies of revolution, BOR-FDTD, dielectric waveguide

Abstract

The paper deals with numerical solution of Maxwell equations by the method of finite differences in the time domain for bodies of revolution (BOR-FDTD) in an open domain using moving frame. The latter made possible to calculate long time propagation of a pulse precursor in a dielectric waveguide.

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References

N. Legenkiy and A. Y. Butrym. Pulse signals in open circular dielectric wave­guide // Progress in Electromagnetics Research Letters, – 2011, Vol. 22, – pp. 9-17.

Allen Taflove, Susan C. Hagness. Computational Electrodynamics: The Finite-Difference Time-Domain Method, – Artech House, Inc., 2000 (2nd Edition). – 852 p.

Wenhua Yu, Raj Mittra. Parallel Finite-Difference Time-Domain Method, – Artech House, Inc., 2006. – 262 p.

Pemper, et al. Moving Coordinate Frame FDTD Analysis of Long Range Tracking of Pulsed Fields in Graded Index Waveguides // Progress in Electromagnetics Research, – 2000, Vol. 26, – pp. 133-164.

Yong Li and Jianguo Wang. Application of Moving Coordinate FDTD Method on Electromagnetic Pulses Propagation // PIERS Proceedings, Xi'an, China, March 22-26, 2010, – pp. 192-195.

Лазоренко О. В., Черногор Л. Ф. Сверхширокополосные сигналы и процессы. Монография. – Харьков: Харьковский национальный университет имени В. Н. Каразина, 2009. – 576с.

Published
2012-05-29
Cited
How to Cite
Butrym, A., Kolomietc, L., & Legenkiy, M. (2012). Using the Accompanying Window in BOR-FDTD Method for the Calculation of Conduct Precursor in the Dielectric Waveguide. East European Journal of Physics, (1001(2), 139-141. Retrieved from https://periodicals.karazin.ua/eejp/article/view/13834