Abstract
AbstractWe report the propagation of substorm-associated magnetic fluctuations by multipoint magnetic observations from ground and space in the same meridional plane. The first Quasi-Zenith Satellite (QZS-1), which has a unique orbit of quasi-zenith orbit with an inclination of $$41^\circ$$41∘, an apogee of 7.1 $$R_E$$RE radial distance, and an orbital period of 24 h, can stay for a long time in the near-earth magnetotail away from the magnetic equator. We examined a substorm event during 15:00–16:00 UT on July 09, 2013 when QZS-1 was located at $$31^\circ$$31∘ dipole latitude and 23.5 h dipole magnetic local time. The Engineering Test Satellite VIII (ETS-VIII), Time History of Events and Macroscale Interactions during Substorms D (THEMIS-D) at a radial distance of $$\sim 10$$∼10$$R_E$$RE, and THEMIS-E at a radial distance of $$\sim 7$$∼7$$R_E$$RE were located near the equator in the similar magnetic meridian. The dipolarization was first observed at THEMIS-D at 15:14:30 UT. Then, $$\sim 1$$∼1 min later, magnetic fluctuations were observed by ETS-VIII and THEMIS-E. At the same time, the magnetic bay and Pi2 pulsation were observed at low-latitude magnetic observatories and the Radiation Belt Storm Probes B satellite in the inner magnetosphere. We found that QZS-1 away from the equator observed a strong azimuthal magnetic field fluctuation with a long delay of 15 min from the first dipolarization at THEMIS-D near the equator. The speed of the poleward propagating magnetic fluctuation between the ionospheric footprints is calculated to be 310 $$\left[ \mathrm{m}/\mathrm{s}\right]$$m/s, which is consistent with a typical speed of auroral poleward expansion. A similar time delay of the onset of the negative bay was observed between the Tixie (AACGM $$\hbox {MLAT}=66.8^\circ$$MLAT=66.8∘) and Kotelny (AACGM $$\hbox {MLAT}=71.0^\circ$$MLAT=71.0∘) observatories near the ionospheric footprint of satellites. We suggest that the long delay time of the magnetic fluctuation at QZS-1 was associated with the crossing of field-aligned current during the poleward expansion of the substorm current system. The distribution of azimuthal magnetic field variations in the magnetosphere indicates that the east side downward current extended more west side in the higher latitude part of the current wedge.
Funder
Japan Society for the Promotion of Science
Ito Kagaku Shinkou Kai
Publisher
Springer Science and Business Media LLC
Subject
Space and Planetary Science,Geology
Cited by
4 articles.
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