Везде

RAS PhysicsГеомагнетизм и аэрономия Geomagnetism and Aeronomy

  • ISSN (Print) 0016-7940
  • ISSN (Online) 3034-5022

Study of sudden magnetic storm commencement from observations with second time resolution

You can
PII
10.31857/S0016794024030034-1
DOI
10.31857/S0016794024030034
Publication type
Article
Status
Published
Authors
Iu. S. Zagainova
  • Affiliation: Pushkov Institute of Terrestrial Magnetism, Ionosphere, and Radio Wave Propagation, Russian Academy of Sciences
V. G. Fainshtein
  • Affiliation: Institute of Solar–Terrestrial Physics, Siberian Branch, Russian Academy of Sciences
Volume/ Edition
Volume 64 / Issue number 3
Pages
348-362
Abstract
The article presents the results of a studying detection of the sudden commencement (SC) and main impulse (MI) of a magnetic storm as a function of the geographic coordinates of magnetic observatories and Universal Time, using modern data with second time resolution. The analysis was carried out for two events in which an interplanetary shock wave impacting the magnetosphere was associated with interplanetary coronal mass ejections (CMEs) with sources in different hemispheres of the Sun. The authors propose an approach to determine the time points of SC and MI detection. It is concluded that the SC and MI detection times may differ by several seconds to more than a minute at magnetic observatories located at different geographic latitudes and longitudes. For the studied events, the graphs of SC and MI detection as functions of the geographic coordinates of magnetic observatories and Universal Time revealed trends according to which, on average, the higher station the latitude, the later SC and MI are detected at the station.
Keywords
Date of publication
15.06.2024
Year of publication
2024
Number of purchasers
0
Views
51

References

  1. 1. Акасофу С.И., Чепмен С. Солнечно-земная физика. 2 часть. Перевод с англ. М.: Изд-во «Мир», 512 с. 1975.
  2. 2. Ермолаев Ю.И., Николаева Н.С., Лодкина И.Г., Ермолаев М.Ю. Каталог крупномасштабных явлений солнечного ветра для периода 1976–2000 гг. // Космич. исслед. Т. 47. № 2. С. 99–113. 2009. https://doi.org/10.1134/S0010952509020014
  3. 3. Пархомов В.А., Бородкова Н.Л., Яхнин А.Г., Суворова А.В., Довбня Б.В., Пашинин А.Ю., Козелов Б.В. Глобальный импульсный всплеск геомагнитных пульсаций в частотном диапазоне 0.2–5 Гц, как предвестник внезапного начала геомагнитной бури Святого Патрика 17 марта 2015 г. // Космич. исслед. Т. 55. № 5. С. 323–336. 2017. https://doi.org/10.7868/S0023420617050016
  4. 4. Пархомов В.А., Бородкова Н.Л., Яхнин А.Г. и др. Два типа отклика магнитосферы в геомагнитных пульсациях Psc на взаимодействие с межпланетными ударными волнами. // Солнечно-земная физика. Т. 4. № 3. С. 68–83. 2018. https://doi.org/10.12737/szf-43201808
  5. 5. Пилипенко В.А., Браво М., Романова Н.В., Козырева О.В., Самсонов С.Н., Сахаров Я.А. Геомагнитный и ионосферный отклики на межпланетную ударную волну 17 марта 2015 г. // Физика земли. № 5. C. 61‒80. 2018. https://doi.org/10.1134/S1069351318050129
  6. 6. Araki T. A physical model of the geomagnetic sudden commencement // Geophysical Monograph, V. 81. P. 183–200. 1994. https://doi.org/10.1029/GM081p0183
  7. 7. Beland J., Small K. Space weather effects on power transmission systems: The cases of Hydro-Quebec and Transpower New Zealand Ltd. Effects of Space Weather on Technology Infrastructure, Kluwer, Dordrecht, Netherlands / ed. Eaglis I.A. P. 287–299. 2004.
  8. 8. Brueckner G.E., Howard R.A., Koomen M.J., Korendyke C.M. The large angle spectroscopic coronagraph (LASCO) // Solar Physics. 162. P. 357. 1995.
  9. 9. Chapman S., Bartels J. Geomagnetism, Vol. I: Geomagnetic and Related Phenomena. London: Oxford Univ. Press, 1940a.
  10. 10. Chapman S., Bartels J. Geomagnetism, Vol. II: Analysis of the Data, and Physical Theories. London: Oxford Univ. Press, 1940b.
  11. 11. Burlaga L.F. and Ogivile K.W., Causes of sudden commencements and sudden impulses // J. Geophys. Res. V. 74. P. 2815. 1969.
  12. 12. Curto J.J., Araki T., Alberca L.F. Evolution of the concept of Sudden Storm Commencements and their operative identification // Earth Planets Space. V. 59. i–xii. 2007a. https://doi.org/10.1186/BF03352059
  13. 13. Curto J.J., Cardús J.O., Alberca L.F, Blanch E. Milestones of the IAGA International Service of Rapid Magnetic Variations and its contribution to geomagnetic field knowledge // Earth, Planets and Space. V. 59. P. 463–471. 2007b.
  14. 14. Domingo V., Fleck B., Poland A.I. The SOHO Mission: an Overview // Solar Phys. 162(1-2). P. 1. 1995.
  15. 15. Fainshtein V.G., Ivanov E.V. Relationship between CME Parameters and Large-Scale Structure of Solar Magnetic Fields // Sun and Geosphere. V. 5. N. 1. P. 28‒33. 2010.
  16. 16. Ferraro V.C.A., Parkinson W.C., and Unthank H.W. Sudden commencements and sudden impulses in geomagnetism, Cheltenham, Tucson, San Juan, Honolulu, Huancayo and Watheroo // J. Geophys. Res. V. 56. P. 177–195. 1951.
  17. 17. Gerard V.B. The Propagation of World-Wide Sudden Commencements of Magnetic Storms// Journal of Geophysical Research. V. 64. Issue 6. P. 593‒596. 1959.
  18. 18. Gopalswamy N., Yashiro S., Michalek G., Stenborg G., Xie G., Mäkelä P., Vourlidas A. A Catalog of Halo Coronal Mass Ejections from SOHO // Earth Moon Planet. V. 104. P. 7–16. 2010.
  19. 19. Hundhausen A.J. Coronal expansion and solar wind. Berlin: Springer-Verlag Heidelberg New York, 1972.
  20. 20. Kim S.-I., Kim K.-H., Kwon H.-J., et al. SC-associated electric field variations in the magnetosphere and ionospheric convective flows // J. Geophys. Res.: Space Physics. V. 122. P. 11,044–11,057. 2017. https://doi.org/10.1002/2017JA024611
  21. 21. Lam M.M., Rodger A.S. A case study test of Araki’s physical model of geomagnetic sudden commencement // Journal of Geophysical Research. V. 106. Issue A7. P. 13135‒13144. 2001. https://doi.org/10.1029/2000JA900134
  22. 22. Mayaud P. Analysis of storm sudden commencements for the years 1868–1967 // J. Geophys. Res. V. 80. № 1. P. 111–122. 1975.
  23. 23. Nishida A. Geomagnetic diagnosis of the magnetosphere. Berlin: Springer-Verlag New-York-Hedelberg. 1978.
  24. 24. Nishimura Y., Kikuchi T., Ebihara Y., Yoshikawa A., Imajo S., Li W., Utada H. Evolution of the current system during solar wind pressure pulses based on aurora and magnetometer observations // Earth, Planets and Space. V. 68. P. 144. 2016. https://doi.org/10.1186/s40623-016-0517-y
  25. 25. Parkhomov V.A. Fine structure of the preliminary impulse of a sudden storm commencement // Geomagnetizm i Aeronomiia (ISSN 0016-7940), vol. 25, May-June 1985, p. 420‒424. In Russian. 1985.
  26. 26. Russell C.T., Ginskey M., Petrinec S.M. Sudden impulses at low latitudestations: Steady state response for southward interplanetary magneticfield // J. Geophys. Res.V. 99 (A7). P. 13403–1 3408. 1994. https://doi.org/10.1029/94JA00549
  27. 27. Samsonov A.A., Sibeck D.G., Chen S., Singer H.J., Biernat H.K., Zolotova N. An event of interplanetary shock - magnetosphere interaction: Comparison between spacecraft observations and MHD modeling. American Geophysical Union, Fall Meeting 2010, abstract id.SM13B-1799. 2010.
  28. 28. Sato T. Sudden commencement of geomagnetic storms in high latitudes // Rep. Ionosph. Space Res. Japan. V. 15. P. 215. 1961.
  29. 29. Selvakumaran R., Veenadhari B., Ebihara Y., Kumar S., Prasad D.S.V.V.D. The role of interplanetary shock orientation on SC/SI rise time and geoeffectiveness // Advances in Space Research. V. 59. N. 5. P. 1425–1438. 2017. https://doi.org/10.1016/j.asr.2016.12.010
  30. 30. Sun T.R., Wang C., Li H., Guo X.C. Nightside geosynchronous magnetic field response to interplanetary shocks: Model results // J. Geophys. Res. V. 116. A04216. 2011. https://doi.org/10.1029/2010JA016074
  31. 31. Sun T.R., Wang C., Zhang J.J., Pilipenko V.A., Wang Y., Wang J.Y. The chain response of the magnetospheric and ground magnetic field to interplanetary shocks // J. Geophys. Res. V. 120. P. 157–165. 2015. https://doi.org/10.1002/2014JA020754
  32. 32. Wang C., Li C.X., Huang Z.H., and Richardson J.D. Effect of interplanetary shock strengths and orientations on storm sudden commencement rise times // Geophys.Res. Lett. V. 33. P.L14104. 2006. https://doi.org/10.1029/2006GL025966
  33. 33. Wang C., Li H., Richardson J.D., and Kan J.R. Interplanetary shock characteristics and associated geosynchronous magnetic field variations estimated from sudden impulses observed on the ground // J. Geophys. Res. V. 115. P. A09215. 2010. https://doi.org/10.1029/2009JA014833
  34. 34. Williams V.L. The simultaneity of sudden commencements of magnetic storms // J. Geophys. Res. V. 65. N. 1. P. 85–92. 1960.
  35. 35. Wilson C.R., Sugiura M. Hydromagnetic Interpretation of Sudden Commencements of Magnetic Storms? // Journal of Geophysical Research. V. 66. Iissue 12. P. 4097‒4111. 1961.
  36. 36. Yamamoto M., Maeda H. The simultaneity of geomagnetic sudden impulses // J. Atmosp. Terr. Phys. V. 22. P. 212–215. 1960.
  37. 37. Yue C., Zong Q.G., Zhang H., Wang Y.F., Yuan C.J., Pu Z.Y., Fu S.Y., Lui A.T.Y., Yang B., and Wang C.R. Geomagnetic activity triggered by interplanetary shocks // J. Geophys. Res. V. 115. P. A00I05. 2010. https://doi.org/10.1029/2010JA0115356
QR
Translate

Индексирование

Scopus

Scopus

Scopus

Crossref

Scopus

Higher Attestation Commission

At the Ministry of Education and Science of the Russian Federation

Scopus

Scientific Electronic Library