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Application of the Finite-Difference Time-Domain Method to Scattering andRadiation Problems Involving Wires and Plates

机译：时域有限差分法在线板散射和辐射问题中的应用

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Numerical modeling of electromagnetic (EM) interaction is normally performed byusing either differential or integral equation methods. Both techniques can be implemented to solve problems in frequency or time domain. The method of moments (MOM) approach to solving integral equations has matured to the point where it can be used to solve complex problems. In the past, MOM has only been applied to scattering and radiation problems involving perfectly conducting or isotropic penetrable, lossy or lossless objects. However, many materials, (e.g., composites that are used on the Navy's surface ships in practical applications) exhibit anisotropic properties. To account for these new effects, several integral equation formulations for scattering and radiation by anisotropic objects have been developed recently. The differential equation approach to EM interaction studies has seen the emergence of the finite-difference time-domain (FD-TD) method as the method of choice in many of today's scattering and radiation applications. This approach has been applied to study transient as well as steady-state scattering from many complex structures, radiation from wire antennas, and coupling into wires through narrow apertures in conducting cavities. It is important to determine whether or not, and how effectively, the FD-TD can be used to solve EM interaction problems of interest to the Navy, such as investigating potential EM interference in shipboard communication systems. Consequently, this report partly addresses this issue by dealing exclusively with FD-TD modeling of time-domain EM scattering and radiation.

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作者
Beker, B.;
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年度 1992
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总页数 34
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Electromagnetic scattering; Finite difference theory; Time domain; Electromagneticradiation; Isotropism; Anisotropy; Differential equations; Shipboard;

机译：电磁散射;有限差分理论;时域;电磁辐射;各向同性;各向异性;微分方程;舰船;

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专利

1. Scattering by twin wire mesh using finite-difference time-domain method [J] . Boonzaaier J.J., Pistorius C.W.I. Electronics Letters . 1991,第17期

机译：时域有限差分法的双金属丝网散射
2. Application of the finite-difference time-domain method and total-field/scattered field formulation to scattering phenomena in solids [J] . Masahiro Sato Acoustical science and technology . 2007,第4期

机译：时域有限差分法和全场/散射场公式在固体散射现象中的应用
3. Application of the symplectic finite-difference time-domain method to light scattering by small particles [J] . Peng-Wang Zhai, George W. Kattawar, Ping Yang, Applied Optics . 2005,第9期

机译：辛有限差分时域方法在小颗粒光散射中的应用
4. Application of the finite-difference time-domain method to electromagnetic scattering from 3-D chiral objects [C] . Hunsberger, F.P., Luebbers, . 1990

机译：时域有限差分法在3-D手性物体电磁散射中的应用
5. A fourth-order symplectic finite-difference time-domain (FDTD) method for light scattering and a three-dimensional Monte Carlo code for radiative transfer in scattering systems. [D] . Zhai, Pengwang. 2006

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6. Study on Scattering and Absorption Properties of Quantum-Dot-Converted Elements for Light-Emitting Diodes Using Finite-Difference Time-Domain Method [O] . Jiasheng Li, Yong Tang, Zongtao Li, 2017

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7. Application of the finite-difference time-domain method and total-field/scattered field formulation to scattering phenomena in solids [O] . Masahiro Sato 2007

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8. Efficient Finite-Difference Time-Domain Scheme for Light Scattering by Dielectric Particles: Application to Aerosols [R] . Yang, P. , Liou, K. N. , Mishchenko, M. I. , 2000

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Application of the Finite-Difference Time-Domain Method to Scattering andRadiation Problems Involving Wires and Plates

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