Surface electric fields for North America during historical geomagnetic storms

To better understand the impact of geomagnetic disturbances on the electric grid, we recreate surface electric fields from two historical geomagnetic storms—the 1989 “Quebec” storm and the 2003 “Halloween” storms. Using the Spherical Elementary Current Systems method, we interpolate sparsely distrib...

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Bibliographic Details
Published in:Space Weather 2013-08, Vol.11 (8), p.451-462
Main Authors: Wei, Lisa H., Homeier, Nicole, Gannon, Jennifer L.
Format: Article
Language:English
Subjects:
Amplitudes
Disturbances
Electric fields
geomagnetic disturbances
Geomagnetism
Geophysics
Horizontal
Magnetic fields
Magnetism
Mathematical models
Storms
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Summary:To better understand the impact of geomagnetic disturbances on the electric grid, we recreate surface electric fields from two historical geomagnetic storms—the 1989 “Quebec” storm and the 2003 “Halloween” storms. Using the Spherical Elementary Current Systems method, we interpolate sparsely distributed magnetometer data across North America. We find good agreement between the measured and interpolated data, with larger RMS deviations at higher latitudes corresponding to larger magnetic field variations. The interpolated magnetic field data are combined with surface impedances for 25 unique physiographic regions from the United States Geological Survey and literature to estimate the horizontal, orthogonal surface electric fields in 1 min time steps. The induced horizontal electric field strongly depends on the local surface impedance, resulting in surprisingly strong electric field amplitudes along the Atlantic and Gulf Coast. The relative peak electric field amplitude of each physiographic region, normalized to the value in the Interior Plains region, varies by a factor of 2 for different input magnetic field time series. The order of peak electric field amplitudes (largest to smallest), however, does not depend much on the input. These results suggest that regions at lower magnetic latitudes with high ground resistivities are also at risk from the effect of geomagnetically induced currents. The historical electric field time series are useful for estimating the flow of the induced currents through long transmission lines to study power flow and grid stability during geomagnetic disturbances. Key Points The SECS method is used to interpolate historical magnetic field data Peak surface electric fields are 2.6 and 1.9 V/km for the 1989 and 2003 storms Electric fields vary by a factor of 35 for various regional resistivity models
ISSN:1542-7390
1539-4964
1542-7390
DOI:10.1002/swe.20073