IMPACT OF METEOROLOGICAL STORMS ON THE E-REGION OF THE IONOSPHERE IN 2017–2018

Solnechno-Zemnaya Fizika Pub Date : 2020-12-22 DOI:10.12737/stp-64202011

O. Borchevkina, I. Karpov, M. Karpov, N. A. Koren’kova, V. Vlasov, V. Leshchenko

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引用次数: 1

Abstract

The paper presents the results of observations of the sporadic Es layer during the period of meteorological disturbances in Kaliningrad in October 2017 and 2018 under quiet geomagnetic conditions. During the meteorological storms (October 29–30, 2017 and October 23–24, 2018), significant changes occurred in the dynamics of the Es-layer critical frequency. Observations of atmospheric and ionospheric disturbances in the Kaliningrad region show that the delay between the ionospheric response and the moment of maximum disturbances in atmospheric parameters is about 3 hours. These phenomena at the heights of the E-region might have been caused by propagation of acoustic-gravity waves generated by convective processes in the lower atmosphere during periods of a meteorological storm. Intensification of turbulent processes in the lower thermosphere leads to an increase in the atmospheric density and, accordingly, to higher recombination rates. This leads to a rapid decrease in the concentration of ions and, consequently, to a decrease in the critical frequency of the sporadic layer below the sensitivity threshold of ionosondes.

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2017-2018年气象风暴对电离层e区的影响

本文介绍了2017年10月和2018年10月加里宁格勒气象扰动期间在安静地磁条件下的零星Es层观测结果。在2017年10月29-30日和2018年10月23-24日的气象风暴期间，es层临界频率的动态变化显著。对加里宁格勒地区大气和电离层扰动的观测表明，电离层响应与大气参数最大扰动时刻之间的延迟约为3小时。e区高处的这些现象可能是由气象风暴期间低层大气对流过程产生的声重力波传播引起的。低层热层湍流过程的增强导致了大气密度的增加，从而导致了更高的复合率。这导致离子浓度迅速下降，因此，使偶发层的临界频率降低到低于离子探空仪的灵敏度阈值。

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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Solnechno-Zemnaya Fizika

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