Response of the topside and bottomside ionosphere at low and middle latitudes to the October 2003 superstorms

Ionospheric observations from the ground‐based GPS receiver network, CHAMP and GRACE satellites and ionosondes were used to examine topside and bottomside ionospheric variations at low and middle latitudes over the Pacific and American sectors during the October 2003 superstorms. The latitudinal var...

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Bibliographic Details
Published in:Journal of geophysical research. Space physics 2015-08, Vol.120 (8), p.6974-6986
Main Authors: Lei, Jiuhou, Zhu, Qingyu, Wang, Wenbin, Burns, Alan G., Zhao, Biqiang, Luan, Xiaoli, Zhong, Jiahao, Dou, Xiankang
Format: Article
Language:English
Subjects:
Density
Electron density
Global positioning systems
GPS
GRACE (experiment)
Ground-based observation
Height variations
Ionosondes
Ionosphere
Ionospheric observations
ionospheric storms
Ionospheric variations
Ionospherics
Latitude
prompt penetration electric fields
Satellite navigation systems
Scale height
Storms
Time response
topside ionosphere
Total Electron Content
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Summary:Ionospheric observations from the ground‐based GPS receiver network, CHAMP and GRACE satellites and ionosondes were used to examine topside and bottomside ionospheric variations at low and middle latitudes over the Pacific and American sectors during the October 2003 superstorms. The latitudinal variation and the storm time response of the ground‐based GPS total electron content (TEC) were generally consistent with those of the CHAMP and GRACE up‐looking TEC. The TECs at heights below the satellite altitudes during the main phases were comparable to, or even less than, the quiet time values. However, the storm time CHAMP and GRACE up‐looking TECs showed profound increases at low and middle latitudes. The ground‐based TEC and ionosonde data were also combined to study the TEC variations below and above the F2 peak height (hmF2). The topside TECs above hmF2 at low and middle latitudes showed significant increases during storm time; however, the bottomside TEC below hmF2 did not show so obvious changes. Consequently, the bottomside ionosphere made only a minor contribution to the ionospheric positive phase seen in the total TEC at low and middle latitudes. Moreover, at middle latitudes F2 peak electron densities during storm time did not have the obvious enhancements that were seen in both the ground‐based and topside TECs, although they were accompanied by increases of hmF2. Therefore, storm time TEC changes are not necessarily related to changes in ionospheric peak densities. Our results suggest that TEC increases at low and middle latitudes are also associated with effective plasma scale height variations during storms. Key Points Bottomside ionosphere made a minor contribution to ionospheric positive storm TEC changes are not necessarily related to ionospheric peak densities TEC increases are also associated with effective plasma scale height variations
ISSN:2169-9380
2169-9402
DOI:10.1002/2015JA021310