Solar physics, 2020-08, Vol.295 (8), Article 108
2020
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- Autor(en) / Beteiligte
- Titel
- Dependence of Major Geomagnetic Storm Intensity (Dst≤−100 nT) on Associated Solar Wind Parameters
- Ist Teil von
- Solar physics, 2020-08, Vol.295 (8), Article 108
- Ort / Verlag
- Dordrecht: Springer Netherlands
- Erscheinungsjahr
- 2020
- Quelle
- SpringerLink
- Beschreibungen/Notizen
- We investigate the influence of various solar wind parameters on the intensity of the associated major geomagnetic storm. SYM-H min was used to indicate the intensity of major geomagnetic storms, while I ( B s ) , I ( E y ) and I ( Q ) were used to indicate the time integrals of the southward interplanetary magnetic field component ( B s ), the solar wind electric field ( E y ), and Q , which is the combination of E y and the solar wind dynamic pressure, during the main phase of a major geomagnetic storm, respectively. We have found that the correlation coefficient (CC) between the time integral of solar wind parameters and the intensity of an associated major geomagnetic storm has a physical meaning, while the CC between the peak value of a given solar wind parameter and the intensity of an associated major geomagnetic storm has no physical meaning. We used 67 major geomagnetic storms that occurred between 1998 and 2006 to calculate the CC between SYM-H min and I ( B s ) , the CC between SYM-H min and I ( E y ) , and the CC between SYM-H min and I ( Q ) . The derived CC between I ( B s ) and SYM-H min is 0.33, while the CC between I ( E y ) and SYM-H min is 0.57, and the CC between I ( Q ) and SYM-H min is 0.86, respectively. These values indicate that I ( B s ) , I ( E y ) and I ( Q ) contribute in a small, moderate, and crucial way to the intensity of a major geomagnetic storm, respectively. For the solar wind to have a strong geoeffectiveness B s plays a role, together the solar wind speed and density, but also the dynamic pressure > 3 nPa. Large and long duration B s or E y cannot ensure a major geomagnetic storm, if the solar wind dynamic pressure is much lower than 3 nPa.
- Sprache
- Englisch
- Identifikatoren
- ISSN: 0038-0938eISSN: 1573-093XDOI: 10.1007/s11207-020-01675-3Titel-ID: cdi_proquest_journals_2574938742
- Format
- –
- Schlagworte
- Astrophysics and Astroparticles, Atmospheric Sciences, Charged particles, Correlation coefficient, Correlation coefficients, Dynamic pressure, Electric fields, Geomagnetic storms, Geomagnetism, Integrals, Interplanetary magnetic field, Magnetic fields, Magnetic storms, Magnetism, Mathematical analysis, Parameters, Physics, Physics and Astronomy, Saturn, Solar magnetic field, Solar physics, Solar wind, Solar wind dynamics, Solar wind electric fields, Solar wind parameters, Solar wind velocity, Space Exploration and Astronautics, Space Sciences (including Extraterrestrial Physics, Storms, Wind speed