三维复杂材料基器件的计算机模拟

2006 International Conference on Mathematical Methods in Electromagnetic Theory Pub Date : 2009-06-11 DOI:10.1109/EMCEUROPE.2009.5189705

A. Bijamov, D. Kakulia, G. Saparishvili, T. Gogua, D. Karkashadze, R. Zaridze

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引用次数: 0

摘要

讨论了三维复杂材料PBG器件的计算机辅助建模和仿真的几个方面。软件包的仿真，分析，设计和优化的各种这样的设备已经创建。掺杂元素的周期结构决定了整体物体的复杂性质，是器件的基础。提出了主体部分的复杂介电特性(epsiv, mu)与特殊拟合的掺杂元素共同产生了超材料的剩余导纳(α和β)。讨论了三维数值模拟与设计的必要性。本文采用辅助源法(MAS) (Zaridze et al.， 2002)模拟上述器件中的电磁场分布

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Computer Simulation of 3D Complex Material-Based Devices

Several aspects of computer-aided modeling and simulation of 3D complex material PBG devices are discussed. Software package for simulation, analysis, design and optimization of wide variety such devices has been created. Periodic structures of doped elements responsible for complex properties of integral objects are the basis of devices. It is proposed, that complex dielectric properties (epsiv, mu) of the main part, together with specially fitted doped elements create the rest admittances (alpha and beta) of the metamaterials. The need of 3D numerical simulations and design is discussed. The method of auxiliary sources (MAS) (Zaridze et al., 2002) is applied to simulate EM field distribution in devices mentioned above

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2006 International Conference on Mathematical Methods in Electromagnetic Theory

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