光学分束器的时域小波配置数值模拟

14th International Conference on Microwaves, Radar and Wireless Communications. MIKON - 2002. Conference Proceedings (IEEE Cat.No.02EX562) Pub Date : 2002-08-07 DOI:10.1109/MIKON.2002.1017905

M. Fujii, P. Russer, W. Hoefer

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引用次数: 1

摘要

双正交插值函数通过时域小波配置技术应用于电磁场建模，得到了求解非齐次介质时变麦克斯韦方程组的通用第一性原理算法。所得到的技术是严格的，并保持了较高的精度，同时，由于它的亚网格能力，大大减少了计算量，特别是对于电大介质波导的建模。该技术已应用于光波导系统典型尺寸的二维介质波导分束器，并证明了计算效率的提高。

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Numerical modeling of an optical beam-splitter by the time-domain wavelet-collocation technique

Biorthogonal interpolating functions have been applied to electromagnetic field modeling through the wavelet-collocation technique in the time domain, yielding a versatile first-principle algorithm for the solution of time dependent Maxwell's equations with inhomogeneous media. The resulting technique is rigorous and maintains high accuracy, while, by virtue of its sub-gridding capability, significant reduction of the computational requirement has been obtained particularly for the modeling of electrically large dielectric waveguides. The proposed technique has been applied to a two dimensional dielectric waveguide beam splitter, with dimensions typical of optical waveguide systems, and improvement in the computational efficiency has been demonstrated.

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14th International Conference on Microwaves, Radar and Wireless Communications. MIKON - 2002. Conference Proceedings (IEEE Cat.No.02EX562)

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