Statistical Analysis of Ionospheric Global Electron Content Response to Geomagnetic Storms

被引:0
|
作者
Ratovsky, Konstantin G. [1 ]
Klimenko, Maxim, V [2 ]
Yasyukevich, Yury, V [1 ]
Klimenko, Vladimir V. [2 ]
机构
[1] Russian Acad Sci, Siberian Branch, Inst Solar Terr Phys, Irkutsk, Russia
[2] Russian Acad Sci, West Dept Pushkov IZMIRAN, Kaliningrad, Russia
来源
2019 RUSSIAN OPEN CONFERENCE ON RADIO WAVE PROPAGATION (RWP), VOL 1 | 2019年
基金
俄罗斯基础研究基金会;
关键词
ionosphere; geomagnetic storm; global electron content; statistical analysis;
D O I
10.1109/rwp.2019.8810392
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
The paper is devoted to a statistical analysis of the ionosphere global electron content response to geomagnetic storm. Here we continue previous statistical analysis of the geomagnetic storms aftereffects, which was based on the peak electron density data from the Irkutsk and Kaliningrad ionosondes. The global electron content has two main advantages to be used as the ionospheric characteristic. First, in contrast to the peak electron density, the global electron content is much less affected by the processes associated with all types of atmospheric activity. Second, the analysis of global electron content allows us to test a number of hypotheses suggested in our previous study.
引用
下载
收藏
页码:183 / 186
页数:4
相关论文
共 50 条
  • [21] Ionospheric response to the initial phase of geomagnetic storms: Common features
    Wang, Wenbin
    Lei, Jiuhou
    Burns, Alan G.
    Solomon, Stanley C.
    Wiltberger, Michael
    Xu, Jiyao
    Zhang, Yongliang
    Paxton, Larry
    Coster, Anthea
    JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 2010, 115
  • [22] Effects of mid-latitude geomagnetic storms on ionospheric Total Electron Content over South Africa
    van de Heyde, V. P.
    Price, C. P.
    Moeketsi, D. M.
    SOUTH AFRICAN JOURNAL OF GEOLOGY, 2016, 119 (01) : 135 - 146
  • [23] A Qualitative Study of the Ionospheric Weak Response to Super Geomagnetic Storms
    Li, Haimeng
    Chen, Zhou
    Xie, Lianqi
    Li, Fan
    ATMOSPHERE, 2020, 11 (06)
  • [24] Interaction of global electron content with the Sun and solar wind during intense geomagnetic storms
    Gulyaeva, T. L.
    PLANETARY AND SPACE SCIENCE, 2024, 240
  • [25] Global-scale observations of ionospheric convection during geomagnetic storms
    Gillies, D. M.
    McWilliams, K. A.
    Maurice, J. -P. St.
    Milan, S. E.
    JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 2011, 116
  • [26] Statistical Characteristics of Total Electron Content Intensifications on Global Ionospheric Maps
    Meng, X.
    Verkhoglyadova, O. P.
    Chapman, S. C.
    Watkins, N. W.
    Cafolla, M.
    SPACE WEATHER-THE INTERNATIONAL JOURNAL OF RESEARCH AND APPLICATIONS, 2024, 22 (01):
  • [27] ENHANCEMENTS IN ELECTRON CONTENT AT ARECIBO DURING GEOMAGNETIC STORMS
    NELSON, GJ
    COGGER, LL
    PLANETARY AND SPACE SCIENCE, 1971, 19 (07) : 761 - &
  • [28] Climatological analysis and modeling of the ionospheric global electron content
    SHE ChengLi1
    2 Graduate University of Chinese Academy of Sciences
    3 Wuhan Institute of Physics and Mathematics
    Science Bulletin, 2008, (02) : 282 - 288
  • [29] Climatological analysis and modeling of the ionospheric global electron content
    She ChengLi
    Wan WeiXing
    Xu GuiRong
    CHINESE SCIENCE BULLETIN, 2008, 53 (02): : 282 - 288
  • [30] EFFECTS OF IONOSPHERIC STORMS ON THE TOTAL ELECTRON-CONTENT
    MUKASHEVA, SN
    DOKUCHAEVA, AV
    GEOMAGNETIZM I AERONOMIYA, 1990, 30 (03): : 435 - 439
12345