FDTD Analysis of Electromagnetic Wave Propagation in an Inhomogeneous Ionosphere under Arbitrary-Direction Geomagnetic Field

Jun-Ho Kweon; Min-Seok Park; Jeahoon Cho; Kyung-Young Jung

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FDTD Analysis of Electromagnetic Wave Propagation in an Inhomogeneous Ionosphere under Arbitrary-Direction Geomagnetic Field

机译：任意方向地磁场下非均匀电离层中电磁波传播的FDTD分析

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The finite-difference time-domain (FDTD) model was developed to analyze electromagnetic (EM) wave propagation in an inhomogeneous ionosphere. The EM analysis of ionosphere is complicated, owing to various propagation environments that are significantly influenced by plasma frequency, cyclotron frequency, and collision frequency. Based on the simple auxiliary differential equation (ADE) technique, we present an accurate FDTD algorithm suitable for the EM analysis of complex phenomena in the ionosphere under arbitrary-direction geomagnetic field. Numerical examples are used to validate our FDTD model in terms of the reflection coefficient of a single magnetized plasma slab. Based on the FDTD formulation developed here, we investigate EM wave propagation characteristics in the ionosphere using realistic ionospheric data for South Korea.

机译：建立了时域有限差分（FDTD）模型，以分析电磁波在不均匀电离层中的传播。由于各种传播环境受到等离子频率，回旋加速器频率和碰撞频率的显着影响，因此电离层的EM分析非常复杂。基于简单辅助微分方程（ADE）技术，我们提出了一种精确的FDTD算法，适用于在任意方向地磁场下电离层中复杂现象的EM分析。数值示例用于验证我们的FDTD模型的单个磁化等离子体平板的反射系数。基于此处开发的FDTD公式，我们使用韩国的实际电离层数据研究了电离层中EM波的传播特性。

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《Journal of the Korean Institute of Electromagnetic Engineering and Science》 |2018年第3期|共3页
作者
Jun-Ho Kweon; Min-Seok Park; Jeahoon Cho; Kyung-Young Jung;
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Electromagnetic Wave PropagationFinite-Difference Time-DomainIonosphere;

机译：电磁波的传播有限差分时域电离层;

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1. Specific features of the propagation of ULF planetary electromagnetic waves in the earth's ionosphere related to the geomagnetic field curvature [J] . Aburjania GD, Khantadze AG Geomagnetism and aeronomy . 2005,第5期

机译：ULF行星电磁波在地球电离层中传播的特定特征与地磁场曲率有关
2. A 3-D Stochastic FDTD Model of Electromagnetic Wave Propagation in Magnetized Ionosphere Plasma [J] . Nguyen B.T., Furse C., Simpson J.J. Antennas and Propagation, IEEE Transactions on . 2015,第1期

机译：磁化电离层等离子体中电磁波传播的3-D随机FDTD模型
3. Recent Advances in FDTD Modeling of Electromagnetic Wave Propagation in the Ionosphere [J] . Nguyen Bach T., Samimi Alireza, Simpson Jamesina J. Applied Computational Electromagnetics Society journal . 2014,第12期

机译：电离层中电磁波传播的FDTD建模的最新进展
4. A new 3-D FDTD model of magnetized cold plasma for modeling electromagnetic wave propagation in the earth-ionosphere waveguide [C] . Yaxin Yu, Simpson, J.J. IEEE Antennas and Propagation Society International Symposium;APSURSI '09 . 2009

机译：用于模拟电磁波在地球电离层波导中传播的磁化冷等离子体的新3-D FDTD模型
5. Three-dimensional FDTD modeling of impulsive electromagnetic propagation in the global Earth-ionosphere waveguide below 30 kHz. [D] . Simpson, Jamesina Jean. 2007

机译：低于30 kHz的全球地球电离层波导中的脉冲电磁传播的三维FDTD建模。
6. Criticality Analysis of the Lower Ionosphere Perturbations Prior to the 2016 Kumamoto (Japan) Earthquakes as Based on VLF Electromagnetic Wave Propagation Data Observed at Multiple Stations [O] . Stelios M. Potirakis, Tomokazu Asano, Masashi Hayakawa 2018

机译：基于多个站观察到的基于VLF电磁波传播数据的2016熊本（日本）地震前较低的电离层扰动的关键性分析
7. Propagation Analysis of Electromagnetic Waves in 700 MHz Band at Intersection for Inter-Vehicle Communications Using the FDTD Method [O] . TAGUCHI Kenji, KASHIWA Tatsuya, OHSHIMA Kohzoh, 2011

机译：使用FDTD方法进行车辆间通信的交叉路口700 MHz频带中电磁波的传播分析

FDTD Analysis of Electromagnetic Wave Propagation in an Inhomogeneous Ionosphere under Arbitrary-Direction Geomagnetic Field

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