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Causality and Information Transfer Between the Solar Wind and the Magnetosphere–Ionosphere System

Pouya Manshour, Georgios Balasis, Giuseppe Consolini, Constantinos Papadimitriou, Milan Paluš

2021Entropy45 citationsDOIOpen Access PDF

Abstract

An information-theoretic approach for detecting causality and information transfer is used to identify interactions of solar activity and interplanetary medium conditions with the Earth's magnetosphere-ionosphere systems. A causal information transfer from the solar wind parameters to geomagnetic indices is detected. The vertical component of the interplanetary magnetic field (Bz) influences the auroral electrojet (AE) index with an information transfer delay of 10 min and the geomagnetic disturbances at mid-latitudes measured by the symmetric field in the H component (SYM-H) index with a delay of about 30 min. Using a properly conditioned causality measure, no causal link between AE and SYM-H, or between magnetospheric substorms and magnetic storms can be detected. The observed causal relations can be described as linear time-delayed information transfer.

Topics & Concepts

Earth's magnetic fieldSolar windMagnetospherePhysicsInterplanetary magnetic fieldIonosphereInterplanetary spaceflightGeomagnetic stormGeophysicsElectrojetCausality (physics)Interplanetary mediumAtmospheric sciencesMagnetic fieldQuantum mechanicsEarthquake Detection and AnalysisIonosphere and magnetosphere dynamicsSolar and Space Plasma Dynamics
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