International Journal of
Physical Sciences

  • Abbreviation: Int. J. Phys. Sci.
  • Language: English
  • ISSN: 1992-1950
  • DOI: 10.5897/IJPS
  • Start Year: 2006
  • Published Articles: 2572

Full Length Research Paper

Solar events and seasonal variation of foF2 at Korhogo station from 1992 to 2002

Karim Guibula
  • Karim Guibula
  • Laboratoire de Recherche en Energétique et Météorologie de l’Espace (LAREME), Université Norbert Zongo BP 376 Koudougou Burkina Faso.
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Jean Louis Zerbo
  • Jean Louis Zerbo
  • Laboratoire de Recherche en Energétique et Météorologie de l’Espace (LAREME), Université Norbert Zongo BP 376 Koudougou Burkina Faso.
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Salfo Kaboré
  • Salfo Kaboré
  • Laboratoire de Recherche en Energétique et Météorologie de l’Espace (LAREME), Université Norbert Zongo BP 376 Koudougou Burkina Faso.
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Frédéric Ouattara
  • Frédéric Ouattara
  • Laboratoire de Recherche en Energétique et Météorologie de l’Espace (LAREME), Université Norbert Zongo BP 376 Koudougou Burkina Faso.
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  •  Received: 11 November 2019
  •  Accepted: 14 February 2020
  •  Published: 31 March 2020

References

Adeniyi JO (1986). Magnetic storm eff ects on the morphology of the equatorial F2 layer. Journal of Atmospheric and Terrestrial Physics, 48(8):695-705.
Crossref
 

Balan N, Shiokawa K., Otsuka Y, Watanabe S, Bailey GJ (2009). Super plasma fountain and equatorial ionization anomaly during penetration electric field. Journal of Geophysical Research 114 p. A03310. 
Crossref
 

Buonsanto MJ (1999). Ionospheric Storms: A Review. Space Science Reviews 88:563-601.
Crossref
 

Fejer BG (1981). The Equatorial Ionospheric Electric Fields. A Review. Journal of Atmospheric and Terrestrial Physics 43(5-6):377-386.
Crossref
 

Gyébré AMF, Gnabahou DA, Ouattara F (2018). The Geomagnetic Effects of Solar Activity as Measured at Ouagadougou Station. International Journal of Astronomy and Astrophysics 8:178-190. 
Crossref
 

Hussein MF, Ramy M, Yousef M, Yousef S (2014). The CMEs impacts on the ionospheric critical frequency foF2. Elixir Space Science 80:31067-31070. 

View
 

Mikhailov AV, Förster M, Skoblin M (1994). Neutral gas composition changes and E×B vertical plasma drift contribution to the daytime equatorial F2-region storm effects. Annales Geophysicae 12(2/3):226-231. 
Crossref
 

Ouattara F, Amory-Mazaudier C (2012). Statistical study of the equatorial F2 layer critical frequency at Ouagadougou during solar cycles 20, 21 and 22, using Legrand and Simon's classification of geomagnetic activity. Journal of Space Weather Space Climate 2: A19, 
Crossref
 

Ouattara F, Zerbo JL (2011). Ouagadougou station F2 layer parameters, yearly and seasonal variations during severe geomagnetic storms generated by coronal mass ejections (CMEs) and fluctuating wind streams. International Journal of the Physical Sciences 6(20):4854-4860.
 

Ouattara F (2009). Relationship between geomagnetic classes' activity phases and their occurrence during the sunspot cycle, Annals of Geophysics 52(2):107-116.
 

Ouattara F, Amory-Mazaudier C (2009). Solar-geomagnetic activity and Aa indices toward a Standard. Journal of Atmospheric and Terrestrial Physics, 71:1736-1748. 
Crossref
 

Richardson IG, Cane HV (2000). Sources of Geomagnetic Activity during Nearly Three Solar Cycles (1972-2000). Journal of Geophysical Research, 107(A8):1187,
 

Richardson IG, Cliver EW, Cane HV (2002). Sources of Geomagnetic Activity over the Solar Cycle: Relative Importance of Coronal Mass Ejections, High-Speed Streams, and Slow Solar Wind. Journal of Geophysical Research (105):18200-18213. 
Crossref
 

Sawadogo WE, Ouattara F, Mahammat NA (2019). The Effects of the Recurrent Storms on Fof2 at Ouagadougou Station during Solar Cycles 21-22. International Journal of Geosciences 10(01):80. 
Crossref
 

Scherliess L, Fejer BG (1997). Storm time dependence of equatorial disturbance dynamo zonal electric fields, Journal Geophysical Research 102(A11):24037-24046.
Crossref
 

Simon PA, Legrand JP (1989). Solar cycle and geomagnetic activity: A review for geophysicists. Part. I. The contributions to geomagnetic activity of shock waves and of the solar wind. In Annales Geophysicae, Atmospheres, Hydrospheres and Space Sciences 7(6):565-578.
 

Tsurutani B, Mannucci A, Lijima B, Mangalathayil AA, Sobra JHA, Gonzalez W, Guarnieri F, Tsuda T, Saito A (2004). Global dayside ionospheric uplift and enhancement associated with interplanetary electricfields, Journal of Geophysical Research 109:A08302, 
Crossref
 

Vijaya LD, Balan N, Tulasi RS, Liu JY (2011). Statistics of geomagnetic storms and ionospheric storms at low and mid-latitudes in two solar cycles. Journal of Geophysical Research 116:A11328,
Crossref
 

Vincent E (1998). Modeling investigation of the evening pre-reversal enhancement of the zonal electric field in the equatorial ionosphere. Journal of geophysical 103(A11):709-719, 
Crossref
 

Zerbo JL, Amory-Mazaudier C, Ouattara F, Richardson JD (2012). Solar Wind and Geomagnetism, toward a Standard Classification 1868-2009. Annales Geophysicae 30:421-426. 
Crossref
 

Zerbo JL, Amory-Mazaudier C, Ouattara F (2013). Geomagnetism during solar cycle 23: Characteristics. Journal of Advanced Research 4(3):265-274. 
Crossref
 

Zhao B, Wan W, Li L (2005). Responses of equatorial anomaly to the October-November 2003 superstorms. Annales Geophysicae 23:693-706. 
Crossref

 

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