Litcius/Paper detail

Intense, Long‐Duration Geomagnetically Induced Currents (GICs) Caused by Intense Substorm Clusters

Rajkumar Hajra

2022Space Weather27 citationsDOIOpen Access PDF

Abstract

Abstract Geomagnetically induced current (GIC) measurements at the Mäntsälä, Finland (57.9° magnetic latitude) gas pipeline from 1999 through 2019 are analyzed. It is found that the GIC events with peak intensity A are not individual peaks, but occur in clusters with duration from ∼5 to ∼38 hr when GIC values are almost continuously above ∼1.5 A. The intense, long‐duration GIC A clusters (ILG 10 ) are characterized by average (median) duration of ∼17 ± 9 hr (∼14 hr), peak intensity of ∼21 ± 10 A (∼19 A), and time‐integrated current flows of ∼1.0 ± 0.7 A‐d (∼0.9 A‐d) for all events under study. An one‐to‐one correlation is observed between the ILG 10 events and intense substorm clusters characterized by average (median) duration of ∼20 ± 10 hr (∼17 hr), peak westward auroral electrojet intensity (presented by SuperMAG AL or SML index) of ∼− 2,238 ± 843 nT (∼− 2,099 nT) for all events. About 10–60 min fluctuations in the ILG 10 events are found to be induced by substorm (SML) activity, and geomagnetic pulsations. A detailed study is presented on the local time, solar cycle, and geomagnetic dependencies of the ILG 10 events. This will hopefully augment the predictability of the intense GICs.

Topics & Concepts

SubstormElectrojetEarth's magnetic fieldPhysicsSolar cycle 24Intensity (physics)Geomagnetically induced currentDuration (music)MagnetosphereGeomagnetic stormAtmospheric sciencesSolar cycleSolar windMagnetic fieldQuantum mechanicsAcousticsIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsEarthquake Detection and Analysis