Размер:
AAA
Цвет: CCC
Изображения: Вкл.Выкл.
Обычная версия сайта
  1. Main
  2. Vestik MGTU

Search

Search:

Search by
Query string

Results:

Vol. 15 (2012 year), No. 2

Karpov M.I., Zolotov O.V., Namgaladze A.A.
Modeling of the ionosphere response on the earthquake preparation

Seismo-ionosphere coupling processes have been investigated considering the GPS observed anomalous ionospheric Total Electron Content (TEC) variations before strong earthquakes as their precursors. The numerical simulations' results of the TEC response on the vertical electric currents flowing between the Earth and ionosphere during the earthquake (EQ) preparation time have been performed. Model experiments have been carried out using the Upper Atmosphere Model. The following currents' parameters were varied in: (i) direction (to or from the ionosphere); (ii) latitudinal zone of the sources' (EQ epicenters) location; (iii) currents' configuration: (1) grid nodes with "straight" currents were surrounded by "border" grid points with currents of opposite direction ("return" currents); (2) the "return" currents were spread out over the globe; (3) without "return" currents. Numerical simulations have shown that electric currents with density of 4?10-8 A/m2 over the area of about 200 km in longitude and 2500 km in latitude produce both positive and negative TEC disturbances with magnitude up to 35 % in agreement with GPS TEC observations before EQs.

(in English, стр.6, fig. 4, tables. 0, ref 27, Adobe PDF, Adobe PDF 0 Kb)

Vol. 15 (2012 year), No. 3

Karpov M.I., Namgaladze A.A., Zolotov O.V.
Three-dimensional structure of the seismo-electromagnetic ionospheric electron density disturbances

The paper presents the three-dimensional structure of the ionospheric electron density disturbances triggered by the vertical electric currents flowing between the Earth and ionosphere over the faults before the strong earthquakes. The results were obtained using the global numerical Earth's Upper Atmosphere Model (UAM). The vertical electric currents flowing between the Earth and ionosphere over the faults were used as lower boundary conditions for the UAM electric potential equation. The UAM calculated 3D structure of the ionospheric electron density disturbances demonstrates an importance of all three ionospheric plasma drift movements – vertical, meridional and zonal but not only vertical one.

(in English, стр.9, fig. 9, tables. 0, ref 26, Adobe PDF, Adobe PDF 0 Kb)