[HTML][HTML] Induced currents due to 3D ground conductivity play a major role in the interpretation of geomagnetic variations
L Juusola, H Vanhamäki, A Viljanen… - Annales …, 2020 - angeo.copernicus.org
L Juusola, H Vanhamäki, A Viljanen, M Smirnov
Annales Geophysicae, 2020•angeo.copernicus.orgGeomagnetically induced currents (GICs) are directly described by ground electric fields, but
estimating them is time-consuming and requires knowledge of the ionospheric currents and
the three-dimensional (3D) distribution of the electrical conductivity of the Earth. The time
derivative of the horizontal component of the ground magnetic field (d H/dt) is closely related
to the electric field via Faraday's law and provides a convenient proxy for the GIC risk.
However, forecasting d H/dt still remains a challenge. We use 25 years of 10 s data from the …
estimating them is time-consuming and requires knowledge of the ionospheric currents and
the three-dimensional (3D) distribution of the electrical conductivity of the Earth. The time
derivative of the horizontal component of the ground magnetic field (d H/dt) is closely related
to the electric field via Faraday's law and provides a convenient proxy for the GIC risk.
However, forecasting d H/dt still remains a challenge. We use 25 years of 10 s data from the …
Abstract
Geomagnetically induced currents (GICs) are directly described by ground electric fields, but estimating them is time-consuming and requires knowledge of the ionospheric currents and the three-dimensional (3D) distribution of the electrical conductivity of the Earth. The time derivative of the horizontal component of the ground magnetic field () is closely related to the electric field via Faraday's law and provides a convenient proxy for the GIC risk. However, forecasting still remains a challenge. We use 25 years of 10 data from the northern European International Monitor for Auroral Geomagnetic Effects (IMAGE) magnetometer network to show that part of this problem stems from the fact that, instead of the primary ionospheric currents, the measured is dominated by the signature from the secondary induced telluric currents at nearly all IMAGE stations. The largest effects due to telluric currents occur at coastal sites close to high-conducting ocean water and close to near-surface conductivity anomalies. The secondary magnetic field contribution to the total field is a few tens of percent, in accordance with earlier studies. Our results have been derived using IMAGE data and are thus only valid for the stations involved. However, it is likely that the main principle also applies to other areas. Consequently, it is recommended that the field separation into internal (telluric) and external (ionospheric and magnetospheric) parts is performed whenever feasible (i.e., a dense observation network is available).
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