Alexander A. Namgaladze, Oleg V. Zolotov, Mikhail I. Karpov, Yulia V. Romanovskaya
Department of Physics, Murmansk State Technical University, Murmansk, Russia;.
DOI: 10.4236/ns.2012.411113   PDF    HTML   XML   5,453 Downloads   9,729 Views   Citations

Abstract

Recent ionospheric observations report anomalous total electron content (TEC) deviations prior strong earthquakes. We discuss common fetures of the pre-earthquake TEC disturbances on the basis of statistics covering 50 strong seismic events during 2005-2006. The F2-layer ionospheric plasma drift under action of the electric fields of seismic origin is proposed as the main reason of producing TEC anomalies. The origin of such electric fields is discussed in terms of the lithosphere-atmosphere-ionosphere coupling system. This theory is supported by numerical simulations using global Upper Atmosphere Model (UAM). UAM calculations show that the vertical electric current with the density of about 20 - 40 nA/m² flowing between the Earth and ionosphere over an area of about 200 by 2000 km is required to produce the TEC disturbances with the amplitude of about 30% - 50% relatively to the non-disturbed conditions. Ionosphere responses on the variations of the latitudinal position, direction and configuration of the vertical electric currents have been investigated. We show that not only the vertical component of the ionospheric plasma drift but also horizontal components play an important role in producing pre-earthquake TEC disturbances.

Keywords

Lithosphere-Atmosphere-Ionosphere Coupling System; Ionospheric Earthquake Precursors; Total Electron Content of the Ionosphere; Electromagnetic Plasma Drift; Global Electric Circuit; Vertical Electric Current

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Conflicts of Interest

The authors declare no conflicts of interest.

References

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