A Computationally Efficient Method for Simulating Metal-Nanowire Dipole Antennas at Infrared and Longer Visible Wavelengths

Pantoja  M. F.; Bray M. G.; Werner D. H.; Werner P. L.; Bretones A. R.

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A Computationally Efficient Method for Simulating Metal-Nanowire Dipole Antennas at Infrared and Longer Visible Wavelengths

机译：一种计算红外和更长可见光波长的金属-纳米线偶极子天线的计算有效方法

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摘要

This paper presents a numerically efficient approach for simulating nanowires at infrared and long optical wavelengths. A computationally efficient circuit-equivalent modeling approach based on the electric-field integral-equation (EFIE) formulation is employed to simulate the highly dispersive behavior of nanowires at short wavelengths. The proposed approach can be used both for frequency-domain and for time-domain EFIE formulations. In comparison with widely used full-wave solutions achieved through the finite-difference time-domain method, the circuit-based EFIE formulation results in a sharp reduction of the computational resources while retaining high accuracy.

机译：本文提出了一种在红外和长光波长下模拟纳米线的有效数值方法。一种基于电场积分方程（EFIE）公式的高效计算等效电路建模方法被用来模拟纳米线在短波长下的高度色散行为。所提出的方法可以用于频域和时域EFIE公式。与通过有限差分时域方法实现的广泛使用的全波解决方案相比，基于电路的EFIE公式可显着减少计算资源，同时又能保持高精度。

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来源
《Nanotechnology, IEEE Transactions on》 |2012年第2期|p.239-246|共8页
作者
Pantoja M. F.; Bray M. G.; Werner D. H.; Werner P. L.; Bretones A. R.;
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Department of Electromagnetismo y Fisica de la Materia, Universidad de Granada, Granada, Spain;

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原文格式 PDF
正文语种 eng
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关键词
Computational nanotechnology; integral equations; time-domain analysis;

机译：计算纳米技术;积分方程;时域分析;

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7. A Computationally Efficient Method for Simulating Metal-Nanowire Dipole Antennas at Infrared and Longer Visible Wavelengths [O] . M. F. Pantoja, M. G. Bray, D. H. Werner, 2012

机译：一种在红外和较长可见波长下模拟金属纳米线偶极天线的计算上的高效方法

A Computationally Efficient Method for Simulating Metal-Nanowire Dipole Antennas at Infrared and Longer Visible Wavelengths

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