The Geomagnetic Effects of Solar Activity as Measured at Ouagadougou Station

International Journal of Astronomy and Astrophysics Pub Date : 2018-05-09 DOI:10.4236/IJAA.2018.82013

Aristide Marie Frédéric Gyébré, D. A. Gnabahou, F. Ouattara

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引用次数: 11

Abstract

The coronal mass ejections (CMEs) produce by Sun poloidal magnetic fields contribute to geomagnetic storms. The geomagnetic storm effects produced by one-day-shock, two-days-shock and three-days-shock activities on Ouagadougou station F2 layer critical frequency time variation are analyzed. It is found that during the solar minimum and the increasing phases, the shock activity produces both positive and negative storms. The positive storm is observed during daytime. At the solar maximum and the decreasing phases only the positive storm is produced. At the solar minimum there is no three-days-shock activity. During the solar increasing phase the highest amplitude of the storm effect is due to the one-day-shock activity and the lowest is produced by the two-days-shock activity. At the solar maximum phase the ionosphere electric current system is not affected by the shock activity. Nevertheless, the highest amplitude of the storm effect is caused by the two-days-shock activity and the lowest by the one-day-shock activity. During the solar decreasing phase, the highest amplitude provoked by the storm is due to the three-days-shock activity and the lowest by the one-day-shock activity.

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瓦加杜古站测量太阳活动的地磁效应

太阳极向磁场产生的日冕物质抛射(cme)是地磁风暴的成因之一。分析了1日震、2日震和3日震活动对瓦加杜古站F2层临界频率时间变化的地磁风暴效应。研究发现，在太阳活动极小期和增强期，激波活动同时产生正风暴和负风暴。正风暴是在白天观测到的。在太阳活动极大期和减弱期只产生正风暴。在太阳活动极小期，没有为期三天的冲击活动。在太阳活动增加阶段，风暴效应的最大振幅是由一天的冲击活动产生的，最小振幅是由两天的冲击活动产生的。在太阳活动极大期，电离层电流系统不受冲击活动的影响。然而，风暴效应的最大振幅是由2天震荡活动引起的，最小振幅是由1天震荡活动引起的。在太阳活动减弱期，风暴的最大振幅是由3天震荡活动引起的，最小振幅是由1天震荡活动引起的。

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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International Journal of Astronomy and Astrophysics

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