Ionospheric conductivity effects on electrostatic field penetration into the ionosphere

Ionospheric conductivity effects on electrostatic field penetration into the ionosphere

The classic approach to calculate the electrostatic field penetration, from the Earth's surface into the ionosphere, is to consider the following equation ∇·(σ·∇Φ)=0 where σ and Φ are the elect...

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Main Authors: V. V. Denisenko, M. Y. Boudjada, M. Horn, E. V. Pomozov, H. K. Biernat, K. Schwingenschuh, H. Lammer, G. Prattes, E. Cristea
Format: Article
Language:English
Published: Copernicus Publications 2008-09-01
Series:Natural Hazards and Earth System Sciences
Online Access:http://www.nat-hazards-earth-syst-sci.net/8/1009/2008/nhess-8-1009-2008.pdf
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spelling doaj-7406f3ccc4d84de78082bc721378b0192020-11-24T21:20:02ZengCopernicus PublicationsNatural Hazards and Earth System Sciences1561-86331684-99812008-09-018510091017Ionospheric conductivity effects on electrostatic field penetration into the ionosphereV. V. DenisenkoM. Y. BoudjadaM. HornE. V. PomozovH. K. BiernatK. SchwingenschuhH. LammerG. PrattesE. CristeaThe classic approach to calculate the electrostatic field penetration, from the Earth's surface into the ionosphere, is to consider the following equation ∇·(σ·∇Φ)=0 where σ and Φ are the electric conductivity and the potential of the electric field, respectively. The penetration characteristics strongly depend on the conductivities of atmosphere and ionosphere. To estimate the electrostatic field penetration up to the orbital height of DEMETER satellite (about 700 km) the role of the ionosphere must be analyzed. It is done with help of a special upper boundary condition for the atmospheric electric field. In this paper, we investigate the influence of the ionospheric conductivity on the electrostatic field penetration from the Earth's surface into the ionosphere. <br><br> We show that the magnitude of the ionospheric electric field penetrated from the ground is inverse proportional to the value of the ionospheric Pedersen conductance. So its typical value in day-time is about hundred times less than in night-time. http://www.nat-hazards-earth-syst-sci.net/8/1009/2008/nhess-8-1009-2008.pdf
collection DOAJ
language English
format Article
sources DOAJ
author V. V. Denisenko
M. Y. Boudjada
M. Horn
E. V. Pomozov
H. K. Biernat
K. Schwingenschuh
H. Lammer
G. Prattes
E. Cristea
spellingShingle V. V. Denisenko
M. Y. Boudjada
M. Horn
E. V. Pomozov
H. K. Biernat
K. Schwingenschuh
H. Lammer
G. Prattes
E. Cristea
Ionospheric conductivity effects on electrostatic field penetration into the ionosphere
Natural Hazards and Earth System Sciences
author_facet V. V. Denisenko
M. Y. Boudjada
M. Horn
E. V. Pomozov
H. K. Biernat
K. Schwingenschuh
H. Lammer
G. Prattes
E. Cristea
author_sort V. V. Denisenko
title Ionospheric conductivity effects on electrostatic field penetration into the ionosphere
title_short Ionospheric conductivity effects on electrostatic field penetration into the ionosphere
title_full Ionospheric conductivity effects on electrostatic field penetration into the ionosphere
title_fullStr Ionospheric conductivity effects on electrostatic field penetration into the ionosphere
title_full_unstemmed Ionospheric conductivity effects on electrostatic field penetration into the ionosphere
title_sort ionospheric conductivity effects on electrostatic field penetration into the ionosphere
publisher Copernicus Publications
series Natural Hazards and Earth System Sciences
issn 1561-8633
1684-9981
publishDate 2008-09-01
description The classic approach to calculate the electrostatic field penetration, from the Earth's surface into the ionosphere, is to consider the following equation ∇·(σ·∇Φ)=0 where σ and Φ are the electric conductivity and the potential of the electric field, respectively. The penetration characteristics strongly depend on the conductivities of atmosphere and ionosphere. To estimate the electrostatic field penetration up to the orbital height of DEMETER satellite (about 700 km) the role of the ionosphere must be analyzed. It is done with help of a special upper boundary condition for the atmospheric electric field. In this paper, we investigate the influence of the ionospheric conductivity on the electrostatic field penetration from the Earth's surface into the ionosphere. <br><br> We show that the magnitude of the ionospheric electric field penetrated from the ground is inverse proportional to the value of the ionospheric Pedersen conductance. So its typical value in day-time is about hundred times less than in night-time.
url http://www.nat-hazards-earth-syst-sci.net/8/1009/2008/nhess-8-1009-2008.pdf
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AT mhorn ionosphericconductivityeffectsonelectrostaticfieldpenetrationintotheionosphere
AT evpomozov ionosphericconductivityeffectsonelectrostaticfieldpenetrationintotheionosphere
AT hkbiernat ionosphericconductivityeffectsonelectrostaticfieldpenetrationintotheionosphere
AT kschwingenschuh ionosphericconductivityeffectsonelectrostaticfieldpenetrationintotheionosphere
AT hlammer ionosphericconductivityeffectsonelectrostaticfieldpenetrationintotheionosphere
AT gprattes ionosphericconductivityeffectsonelectrostaticfieldpenetrationintotheionosphere
AT ecristea ionosphericconductivityeffectsonelectrostaticfieldpenetrationintotheionosphere
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