Influence of strong solar proton events on propagation of radio signals in the VLF range in a high-latitude region

Pub Date : 2023-09-30 DOI:10.12737/stp-93202305

Oleg Akhmetov, Igor Mingalev, Oleg Mingalev, Vladimir Belahovskiy, Evgeniy Maurchev, Aleksey Larchenko, Zoya Suvorova, Yuriy Balabin

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Abstract

In this paper, we examine the features of RSDN-20 signal propagation in a high-latitude Earth–ionosphere waveguide during solar proton events, using computational experiment methods. We have analyzed two proton ground-level enhancement (GLE) events of December 13, 2006 (GLE70) and September 10, 2017 (GLE72). Electron density profiles were constructed using the Global Dynamic Model of Ionosphere (GDMI) and the RUSCOSMICS model, developed at PGI. We present estimated phase and amplitude changes in RSDN-20 signals during precipitation of high-energy protons in the high-latitude region of the Earth–ionosphere waveguide. From the results of computational experiments and the analysis of the electromagnetic signal attenuation based on analytical Maxwell’s equation system solution in magnetized ionospheric plasma, we have found a pattern in the signal attenuation frequency dependence associated simultaneously with the signal reflection height, electron density profiles, and the collision frequency of electrons with neutral particles and ions. We discuss limitations of the computational experiment method and compare simulation results with data from Lovozero and Tuloma observatories.

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强太阳质子事件对高纬度地区VLF范围内无线电信号传播的影响

本文采用计算实验的方法，研究了太阳质子事件中RSDN-20信号在高纬度地球-电离层波导中的传播特征。我们分析了2006年12月13日(GLE70)和2017年9月10日(GLE72)的两个质子地面能级增强(GLE)事件。电子密度分布采用全球电离层动力学模型(GDMI)和PGI开发的RUSCOSMICS模型构建。我们给出了地球电离层波导高纬度区域高能质子降水过程中RSDN-20信号的相位和振幅变化的估计。从计算实验结果和基于解析麦克斯韦方程组解的磁化电离层等离子体中电磁信号衰减的分析中，我们发现了信号衰减频率与信号反射高度、电子密度分布以及电子与中性粒子和离子的碰撞频率同时相关的规律。讨论了计算实验方法的局限性，并将模拟结果与Lovozero和Tuloma天文台的数据进行了比较。

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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