Interhemispheric Comparisons of Large Nighttime Magnetic Perturbation Events Relevant to GICs

Authors

Mark J. Engebretson, Augsburg University
Kathryn R. Kirkevold, Augsburg University
Erik S. Steinmetz, Augsburg University
Viacheslav A. Pilipenko, Augsburg University
Mark B. Moldwin, University of Michigan, Ann Arbor
Brett A. McCuen, University of Michigan, Ann Arbor
C. R. Clauer, Virginia Tech College of Engineering
Michael D. Hartinger, Virginia Tech College of Engineering
Shane Coyle, Virginia Tech College of Engineering
Hermann Opgenoorth, Umeå Universitet
Audrey Schillings, Umeå Universitet
Anna N. Willer, Technical University of Denmark
Thom R. Edwards, Technical University of Denmark
David H. Boteler, Natural Resources Canada
Andy J. Gerrard, New Jersey Institute of Technology
Mervyn P. Freeman, British Antarctic Survey
Michael C. Rose, British Antarctic Survey

Document Type

Article

Publication Date

8-1-2020

Abstract

Nearly all studies of impulsive magnetic perturbation events (MPEs) with large magnetic field variability (dB/dt) that can produce dangerous geomagnetically induced currents (GICs) have used data from the Northern Hemisphere. Here we present details of four large-amplitude MPE events (|ΔBx| > 900 nT and |dB/dt| > 10 nT/s in at least one component) observed between 2015 and 2018 in conjugate high-latitude regions (65–80° corrected geomagnetic latitude), using magnetometer data from (1) Pangnirtung and Iqaluit in eastern Arctic Canada and the magnetically conjugate South Pole Station in Antarctica and (2) the Greenland West Coast Chain and two magnetically conjugate chains in Antarctica, AAL-PIP and BAS LPM. From one to three different isolated MPEs localized in corrected geomagnetic latitude were observed during three premidnight events; many were simultaneous within 3 min in both hemispheres. Their conjugate latitudinal amplitude profiles, however, matched qualitatively at best. During an extended postmidnight interval, which we associate with an interval of omega bands, multiple highly localized MPEs occurred independently in time at each station in both hemispheres. These nighttime MPEs occurred under a wide range of geomagnetic conditions, but common to each was a negative interplanetary magnetic field Bz that exhibited at least a modest increase at or near the time of the event. A comparison of perturbation amplitudes to modeled ionospheric conductances in conjugate hemispheres clearly favored a current generator model over a voltage generator model for three of the four events; neither model provided a good fit for the premidnight event that occurred near vernal equinox.

Identifier

85089903827 (Scopus)

Publication Title

Journal of Geophysical Research Space Physics

External Full Text Location

https://doi.org/10.1029/2020JA028128

e-ISSN

21699402

ISSN

21699380

Issue

8

Volume

125

Grant

AGS‐1651263

Fund Ref

Augsburg University

Recommended Citation

Engebretson, Mark J.; Kirkevold, Kathryn R.; Steinmetz, Erik S.; Pilipenko, Viacheslav A.; Moldwin, Mark B.; McCuen, Brett A.; Clauer, C. R.; Hartinger, Michael D.; Coyle, Shane; Opgenoorth, Hermann; Schillings, Audrey; Willer, Anna N.; Edwards, Thom R.; Boteler, David H.; Gerrard, Andy J.; Freeman, Mervyn P.; and Rose, Michael C., "Interhemispheric Comparisons of Large Nighttime Magnetic Perturbation Events Relevant to GICs" (2020). Faculty Publications. 5138.
https://digitalcommons.njit.edu/fac_pubs/5138