HF Propagation during geomagnetic storms at a low latitude station

Physics & Astronomy International Journal Pub Date : 2020-01-16 DOI:10.15406/paij.2020.04.00197

L. Olatunbosun, A. Olabode, AB Babinisi, E. Ariyibi

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Abstract

The variations in the ionosphere affect the radio wave propagation. These variations become more pronounced as a result of geomagnetic storms. The data from a Digitonide installed at Guam station (Lat. 13.62oN and Long. 144.86oE) during geomagnetic events was scaled for an ionogram, which shows the heights of different layers in the ionosphere at different frequencies. The ionogram was then analysed and interpreted. Results showed that virtual heights steadily increased as frequency increased. The splitting of waves into ordinary and extraordinary waves as they enter the ionosphere was an indication that waves divide on entering the ionosphere. The extraordinary was consistently higher than the ordinary wave. The highest frequency the ionosphere above the station could refract signal at 180o was 12.625 MHz. This is the frequency at which communication was to be made from one location to another location within the location of the station. Comparative results between the iongrams of disturbed and undisturbed ionosphere showed that geomagnetic storms lead to increased foF2, MUF values and NmF2. The results also revealed that the strength of the refracted signals were particularly good, strong enough to rebound from the earth and refract again.

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低纬度站地磁暴期间高频传播

电离层的变化影响无线电波的传播。由于地磁风暴的影响，这些变化变得更加明显。利用安装在关岛站(l13.62 on和Long 144.86oE)的Digitonide在地磁事件期间的数据，绘制了电离层图，显示了不同频率下电离层不同层的高度。然后对离子图进行分析和解释。结果表明，随着频率的增加，虚拟高度稳步增加。波在进入电离层时分裂为普通波和特殊波，这表明波在进入电离层时分裂。异常波始终高于普通波。台站上方电离层折射180度信号的最高频率为12.625 MHz。这是通信站所在位置内从一个位置到另一个位置的频率。受干扰和未受干扰电离层的离子图对比结果表明，地磁风暴导致了foF2、MUF值和NmF2的增加。结果还显示，折射信号的强度特别好，足以从地球反弹并再次折射。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Physics & Astronomy International Journal

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