27th IUPAP Conference on Computational Physics | |
Solar Transients Disturbing the Mid Latitude Ionosphere during the High Solar Activity | |
物理学;计算机科学 | |
Bhardwaj, Shivangi^1 ; Khan, Parvaiz A.^2 ; Atulkar, Roshni^1 ; Malvi, Bhupendra^1 ; Mansoori, Azad Ahmad^3 ; Purohit, P.K.^1 | |
National Institute of Technical Teachers ' Training and Research, Bhopal | |
462002, India^1 | |
Department of Electronics and Communication Engineering, Islamic University of Science and Technology, Pulwama | |
JK | |
192122, India^2 | |
Department of Electronics, Barkatullah University, Bhopal | |
462026, India^3 | |
关键词: Coronal mass ejection; Correlation analysis; Critical frequencies; Geomagnetic activities; Ionosonde observations; Ionospheric activity; Mid-latitude ionosphere; Mid-latitude station; | |
Others : https://iopscience.iop.org/article/10.1088/1742-6596/759/1/012063/pdf DOI : 10.1088/1742-6596/759/1/012063 |
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学科分类:计算机科学(综合) | |
来源: IOP | |
【 摘 要 】
We investigate the effect of solar transients on the mid latitude ionosphere during the high solar activity period of solar cycle 23 i.e 2003 and 2004. A mid latitude station, Guangzhou (23.1N, 113.4E) was selected to carry out the investigation. The ionospheric behaviour at the selected station is characterized by considering the critical frequency of F2 layer (foF2) obtained by using the ground based Ionosonde observations. Then we selected two types of solar transients viz. solar flares and Coronal Mass Ejections (CMEs). To quantify the effect of solar flares we have considered the X-ray flux (1-8 Å) and EUV flux (26-34nm). Similarly to quantify the effect of CMEs, we have considered the geomagnetic storms, because during high solar activity the geomagnetic storms are caused by CMEs. From our analysis we conclude that during the geomagnetic storms the value of foF2 decreases as compared to quiet days thereby showing a negative effect. On the contrary we found that during solar flares there is sudden and intense increase in foF2. We also performed a correlation analysis to access the magnitude of association between changes in flux values and peak values of Dst during flares and storms with the corresponding changes and peak values of foF2. We found that a strong correlation exists between the enhancements/decrements in foF2 and enhancements in flux values and Dst. We conclude, while geomagnetic activity suppresses ionospheric activity the flares enhance the same.
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