Abstract

We have examined multi-instrument observations of the magnetospheric and ionospheric response to the interplanetary shock on January 24, 2012. Apart from various instruments, such as ground and space magnetometers, photometers, and riometers used earlier for a study of possible response to a shock, we have additionally examined variations of the ionospheric total electron content as determined from the global navigation satellite system receivers. Worldwide ground magnetometer arrays detected shock-induced sudden commencement (SC) with preliminary and main impulses throughout the dayside sector. A magnetic field compression was found to propagate through the magnetosphere with velocity less than the local Alfven velocity. Though the preliminary pulse was evident on the ground, its signature was not observed by the THEMIS and GOES satellites in the magnetosphere. The SC was accompanied by a burst of cosmic noise absorption recorded along a latitudinal network of riometers in the morning and evening sectors. The SC also caused an impulsive enhancement of dayside auroral emissions (shock aurora) as observed by the hyperspectral all-sky imager NORUSCA II at Barentsburg and the meridian scanning photometer at Longyearbyen (both at Svalbard). The VHF EISCAT radar (Tromsø, Norway) observed a SC-associated increase in electron density in the lower ionosphere (100–180 km). The system for monitoring geomagnetically induced currents (GICs) in power lines at the Kola Peninsula recorded a burst of GIC during the SC. A ≤10% positive pulse of the ionospheric total electron content caused by the SC in the dusk sector was found. On the basis of the multi-instrument information, a validated theory of the magnetosphere–ionosphere response to IP shock may be constructed.Graphical .

Highlights

  • An impact of interplanetary (IP) shock or tangential discontinuity onto the magnetosphere, observed by ground magnetometers as storm sudden commencement (SC), is a convenient probing signal for the experimental study of near-Earth space

  • Ionospheric total electron content (TEC) response to SC as observed by the global positioning system (GPS) system We have examined the TEC response using 30-s data from the worldwide GPS receivers compiled into the International GNSS Service (IGS) system

  • The conclusions derived from the multi-instrument observations of the magnetosphere–ionosphere effects caused by the IP shock on January 24, 2012, follow

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Summary

Introduction

An impact of interplanetary (IP) shock or tangential discontinuity onto the magnetosphere, observed by ground magnetometers as storm sudden commencement (SC), is a convenient probing signal for the experimental study of near-Earth space. We consider the magnetospheric and ionospheric response to the IP shock on January 24, 2012, as observed with satellite magnetometers and particle detectors, ground magnetometers and riometers, aurora imagers, and the EISCAT radar. We attempted to consider some fine details of the geomagnetic field, ionosphere, and auroral response to IP shocks using local multi-instrument observations.

Results
Conclusion

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