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Year 2020, , 288 - 296, 13.03.2020
https://doi.org/10.17798/bitlisfen.557313

Abstract

References

  • [1] Nwankwo V. U., Chakrabarti S. K. 2013. Effects of Plasma Drag on Low Earth Orbiting Satellites due to Heating of Earth's Atmosphere by Coronal Mass Ejections. arXiv preprint arXiv:1305.0233.
  • [2] Stankov S. M., Jakowski N., Tsybulya K., Wilken V. 2006. Monitoring the generation and propagation of ionospheric disturbances and effects on Global Navigation Satellite System positioning. Radio science, 41(06), 1-14.
  • [3] Rios V. H., Kim V. P., Hegai V. V., 2004. Abnormal perturbations in the F2 region ionosphere observed prior to the great San Juan earthquake of 23 November 1977. Advances in Space Research, 33 (3): 323-327.
  • [4] Saroso S., Liu J. Y., Hattori K., Chen C. H., 2008. Ionospheric GPS TEC Anomalies and Mw 5.9 Earthquakes in Indonesia during 1993-2002. Terrestrial, Atmospheric And Oceanic Sciences, 19 (5): 481-488.
  • [5] Spogli L., Alfonsi L., Cilliers P. J., Correia E., De Franceschi G., Mitchell C. N., Cabrera M. A. 2013. GPS scintillations and total electron content climatology in the southern low, middle and high latitude regions. Annals of Geophysics, 56 (2): 02-20.
  • [6] Jakowski N., Stankov S. M., Klaehn D. 2005. Operational space weather service for GNSS precise positioning. In Annales Geophysicae ,Vol. 23, No. 9, pp. 3071-3079.
  • [7 ]Rao P. R., Niranjan K., Prasad D. S. V. V. D., Krishna S. G., Uma G. 2006. On the validity of the ionospheric pierce point (IPP) altitude of 350 km in the Indian equatorial and low-latitude sector. In Annales Geophysicae, 8: 2159-2168.
  • [8] Sharma K., Dabas R. S., Sarkar S. K., Das R. M., Ravindran S., Gwal A. K. 2010. Anomalous enhancement of ionospheric F2 layer critical frequency and total electron content over low latitudes before three recent major earthquakes in China. Journal of Geophysical Research, 115 (A11): 4-9.
  • [9] Masci F. 2013. Brief communication" Further comments on the ionospheric precursor of the 1999 Hector Mine earthquake". Natural Hazards and Earth System Sciences, 13(1), 193-196.
  • [10]Oikonomou C., Haralambous H., Muslim B. 2016. Investigation of ionospheric TEC precursors related to the M7. 8 Nepal and M8. 3 Chile earthquakes in 2015 based on spectral and statistical analysis. Natural Hazards, 83 (1): 97-116.
  • [11] Occhipinti G., Rolland L., Lognonné P., Watada S. 2013. From Sumatra 2004 to Tohoku‐Oki 2011: the systematic GPS detection of the ionospheric signature induced by tsunamigenic earthquakes. Journal of Geophysical Research, 118 (6): 3626-3636.
  • [12] Perrone L., Korsunova L. P., Mikhailov A. 2010. Ionospheric precursors for crustal earthquakes in Italy. Annales Geophysicae, 4: 941-950.
  • [13 ]Plotkin V. V. 2003. GPS detection of ionospheric perturbation before the 13 February 2001, El Salvador earthquake. Natural Hazards and Earth System Sciences, 3 (3/4): 249-253.
  • [14] Pulinets S. A., Leyva Contreras A., Bisiacchi-Giraldi G., Ciraolo L. 2003. Total electron content variations in the ionosphere before the Colima, Mexico, earthquake of 21 January 2003. Geofísica Internacional, 4: 369-377.
  • [15] Ciraolo L., Azpilicueta F., Brunini C., Meza A., Radicella S. M. 2007. Calibration errors on experimental slant total electron content (TEC) determined with GPS. Journal of Geodesy, 81(2), 111-120.
  • [16] OmniWeb. https://omniweb.gsfc.nasa.gov/form/dx1.htmlx (Erişim Tarihi: 04.03.2016)
  • [17] NASA. ftp://ftp.cddis.eosdis.nasa.gov/pub/gnss/data (Erişim Tarihi: 06.04.2018)

Manyetik Fırtına Kaynaklı İyonosferik Değişimlerin GNSS Ölçüleri Kullanılarak İrdelenmesi

Year 2020, , 288 - 296, 13.03.2020
https://doi.org/10.17798/bitlisfen.557313

Abstract

08.09.2017 tarihinde gerçekleşen manyetik
fırtınanın iyonosfer tabakasında sebep olduğu değişim, GNSS ölçüleri
kullanılarak elde edilen.TEC değerleri üzerinden analiz edilmiştir. Kuzey ve
güney kutbunda, iyonosferin farklı bölgelerinde bulunan GNSS istasyonlarına ait
RINEX gözlemlerinden TEC değerleri elde edilmiştir. Manyetik fırtına kaynaklı
tEC değişiminin ortaya çıkarılabilmesi için manyetik fırtına öncesi 10 gün,
manyetik fırtına günü ve sonrası 1 gün olmak üzere her istasyona ilişkin toplam
12 günlük veri değerlendirilmiştir. Yapılan analiz sonucunda manyetik
fırtınanın olduğu gün, öncesi ve sonrasında pozitif ve negative anomaliler elde
edilmiştir
.

References

  • [1] Nwankwo V. U., Chakrabarti S. K. 2013. Effects of Plasma Drag on Low Earth Orbiting Satellites due to Heating of Earth's Atmosphere by Coronal Mass Ejections. arXiv preprint arXiv:1305.0233.
  • [2] Stankov S. M., Jakowski N., Tsybulya K., Wilken V. 2006. Monitoring the generation and propagation of ionospheric disturbances and effects on Global Navigation Satellite System positioning. Radio science, 41(06), 1-14.
  • [3] Rios V. H., Kim V. P., Hegai V. V., 2004. Abnormal perturbations in the F2 region ionosphere observed prior to the great San Juan earthquake of 23 November 1977. Advances in Space Research, 33 (3): 323-327.
  • [4] Saroso S., Liu J. Y., Hattori K., Chen C. H., 2008. Ionospheric GPS TEC Anomalies and Mw 5.9 Earthquakes in Indonesia during 1993-2002. Terrestrial, Atmospheric And Oceanic Sciences, 19 (5): 481-488.
  • [5] Spogli L., Alfonsi L., Cilliers P. J., Correia E., De Franceschi G., Mitchell C. N., Cabrera M. A. 2013. GPS scintillations and total electron content climatology in the southern low, middle and high latitude regions. Annals of Geophysics, 56 (2): 02-20.
  • [6] Jakowski N., Stankov S. M., Klaehn D. 2005. Operational space weather service for GNSS precise positioning. In Annales Geophysicae ,Vol. 23, No. 9, pp. 3071-3079.
  • [7 ]Rao P. R., Niranjan K., Prasad D. S. V. V. D., Krishna S. G., Uma G. 2006. On the validity of the ionospheric pierce point (IPP) altitude of 350 km in the Indian equatorial and low-latitude sector. In Annales Geophysicae, 8: 2159-2168.
  • [8] Sharma K., Dabas R. S., Sarkar S. K., Das R. M., Ravindran S., Gwal A. K. 2010. Anomalous enhancement of ionospheric F2 layer critical frequency and total electron content over low latitudes before three recent major earthquakes in China. Journal of Geophysical Research, 115 (A11): 4-9.
  • [9] Masci F. 2013. Brief communication" Further comments on the ionospheric precursor of the 1999 Hector Mine earthquake". Natural Hazards and Earth System Sciences, 13(1), 193-196.
  • [10]Oikonomou C., Haralambous H., Muslim B. 2016. Investigation of ionospheric TEC precursors related to the M7. 8 Nepal and M8. 3 Chile earthquakes in 2015 based on spectral and statistical analysis. Natural Hazards, 83 (1): 97-116.
  • [11] Occhipinti G., Rolland L., Lognonné P., Watada S. 2013. From Sumatra 2004 to Tohoku‐Oki 2011: the systematic GPS detection of the ionospheric signature induced by tsunamigenic earthquakes. Journal of Geophysical Research, 118 (6): 3626-3636.
  • [12] Perrone L., Korsunova L. P., Mikhailov A. 2010. Ionospheric precursors for crustal earthquakes in Italy. Annales Geophysicae, 4: 941-950.
  • [13 ]Plotkin V. V. 2003. GPS detection of ionospheric perturbation before the 13 February 2001, El Salvador earthquake. Natural Hazards and Earth System Sciences, 3 (3/4): 249-253.
  • [14] Pulinets S. A., Leyva Contreras A., Bisiacchi-Giraldi G., Ciraolo L. 2003. Total electron content variations in the ionosphere before the Colima, Mexico, earthquake of 21 January 2003. Geofísica Internacional, 4: 369-377.
  • [15] Ciraolo L., Azpilicueta F., Brunini C., Meza A., Radicella S. M. 2007. Calibration errors on experimental slant total electron content (TEC) determined with GPS. Journal of Geodesy, 81(2), 111-120.
  • [16] OmniWeb. https://omniweb.gsfc.nasa.gov/form/dx1.htmlx (Erişim Tarihi: 04.03.2016)
  • [17] NASA. ftp://ftp.cddis.eosdis.nasa.gov/pub/gnss/data (Erişim Tarihi: 06.04.2018)
There are 17 citations in total.

Details

Primary Language Turkish
Journal Section Araştırma Makalesi
Authors

Samed İnyurt 0000-0001-9339-7569

Erman Şentürk 0000-0002-0833-7113

Publication Date March 13, 2020
Submission Date April 23, 2019
Acceptance Date July 11, 2019
Published in Issue Year 2020

Cite

IEEE S. İnyurt and E. Şentürk, “Manyetik Fırtına Kaynaklı İyonosferik Değişimlerin GNSS Ölçüleri Kullanılarak İrdelenmesi”, Bitlis Eren Üniversitesi Fen Bilimleri Dergisi, vol. 9, no. 1, pp. 288–296, 2020, doi: 10.17798/bitlisfen.557313.



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