VLF信号时域有限差分建模对d区化学的敏感性:静态和扰动条件

2021 USNC-URSI Radio Science Meeting (USCN-URSI RSM) Pub Date : 2021-08-09 DOI:10.23919/USNC-URSIRSM52661.2021.9552360

C. Jeffery, Yash Mehta, E. Nelson

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引用次数: 0

摘要

无线电信号受到自然和人为电离层干扰的强烈影响，这对建模具有挑战性。D区化学尤其如此，它从下面受到冲击、声重力波和雷暴电场的影响，从上面受到太阳x射线、高能质子和沉淀电子的影响。各种研究小组已经开发出详细的化学方案，其中包含了几十种物质和上百种反应，用于计算地磁事件期间的射频吸收。相比之下，VLF信号传播的高级研究通常采用简化的d区化学方案[1]-[2]，例如四种Glukhov-Pasko-Inan方案[3]，该方案依赖于电子附着、分离和重组的简化参数化。

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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Sensitivity of FDTD modeling of VLF Signals to D-Region Chemistry: Quiescent & Disturbed Conditions

Radio signals are strongly impacted by natural and artificial ionospheric disturbances which can be challenging to model. This is especially true of D- Region chemistry which is affected from below by shocks, acoustic-gravity waves and thunderstorm electric fields, and from above by solar x-rays, high-energy protons, and precipitating electrons. Detailed chemistry schemes have been developed by various research groups, with many 10s of species and many 100s of reactions, that have been used to calculate RF absorption during geomagnetic events. In contrast, advanced studies of VLF signal propagation typically employ reduced D-Region chemistry schemes [1]–[2], e.g., the four species Glukhov-Pasko-Inan scheme [3], that rely upon simplified parameterizations of electron attachment, detachment and recombination.

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2021 USNC-URSI Radio Science Meeting (USCN-URSI RSM)

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