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