On the acoustic model of lithosphere-atmosphere-ionosphere coupling before earthquakes

C. V. Meister; B. Mayer; P. Dziendziel; F. Fülbert; D. H.H. Hoffmann; V. A. Liperovsky

doi:10.5194/nhess-11-1011-2011

On the acoustic model of lithosphere-atmosphere-ionosphere coupling before earthquakes

C. V. Meister
, B. Mayer
, P. Dziendziel
, F. Fülbert
, D. H.H. Hoffmann
, V. A. Liperovsky

School of Physics

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

In this work, the many-fluid magnetohydrodynamic theory is applied to describe the modification of the electromagnetic field of the ionospheric E-layer by acoustic-type waves. There, altitudinal profiles of the electromagnetic field and the plasma parameters of the atmosphere and ionosphere are taken into account. It is concluded that at E-region altitudes above seismo-active regions, magnetohydrodynamic waves as Alfvén and magnetoacoustic ones might change their amplitude and direction of propagation. Waves of the Farley-Buneman type might also be excited a few days before very strong earthquakes. The collisions between the neutral and charged particles of the E-layer also cause diffusion and heating processes. Thus, changes of the characteristic foE-frequency might be obtained.

Original language	English
Pages (from-to)	1011-1017
Number of pages	7
Journal	Natural Hazards and Earth System Science
Volume	11
Issue number	4
DOIs	https://doi.org/10.5194/nhess-11-1011-2011
State	Published - 2011

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title = "On the acoustic model of lithosphere-atmosphere-ionosphere coupling before earthquakes",

abstract = "In this work, the many-fluid magnetohydrodynamic theory is applied to describe the modification of the electromagnetic field of the ionospheric E-layer by acoustic-type waves. There, altitudinal profiles of the electromagnetic field and the plasma parameters of the atmosphere and ionosphere are taken into account. It is concluded that at E-region altitudes above seismo-active regions, magnetohydrodynamic waves as Alfv{\'e}n and magnetoacoustic ones might change their amplitude and direction of propagation. Waves of the Farley-Buneman type might also be excited a few days before very strong earthquakes. The collisions between the neutral and charged particles of the E-layer also cause diffusion and heating processes. Thus, changes of the characteristic foE-frequency might be obtained.",

author = "Meister, \{C. V.\} and B. Mayer and P. Dziendziel and F. F{\"u}lbert and Hoffmann, \{D. H.H.\} and Liperovsky, \{V. A.\}",

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doi = "10.5194/nhess-11-1011-2011",

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TY - JOUR

T1 - On the acoustic model of lithosphere-atmosphere-ionosphere coupling before earthquakes

AU - Meister, C. V.

AU - Mayer, B.

AU - Dziendziel, P.

AU - Fülbert, F.

AU - Hoffmann, D. H.H.

AU - Liperovsky, V. A.

PY - 2011

Y1 - 2011

N2 - In this work, the many-fluid magnetohydrodynamic theory is applied to describe the modification of the electromagnetic field of the ionospheric E-layer by acoustic-type waves. There, altitudinal profiles of the electromagnetic field and the plasma parameters of the atmosphere and ionosphere are taken into account. It is concluded that at E-region altitudes above seismo-active regions, magnetohydrodynamic waves as Alfvén and magnetoacoustic ones might change their amplitude and direction of propagation. Waves of the Farley-Buneman type might also be excited a few days before very strong earthquakes. The collisions between the neutral and charged particles of the E-layer also cause diffusion and heating processes. Thus, changes of the characteristic foE-frequency might be obtained.

AB - In this work, the many-fluid magnetohydrodynamic theory is applied to describe the modification of the electromagnetic field of the ionospheric E-layer by acoustic-type waves. There, altitudinal profiles of the electromagnetic field and the plasma parameters of the atmosphere and ionosphere are taken into account. It is concluded that at E-region altitudes above seismo-active regions, magnetohydrodynamic waves as Alfvén and magnetoacoustic ones might change their amplitude and direction of propagation. Waves of the Farley-Buneman type might also be excited a few days before very strong earthquakes. The collisions between the neutral and charged particles of the E-layer also cause diffusion and heating processes. Thus, changes of the characteristic foE-frequency might be obtained.

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DO - 10.5194/nhess-11-1011-2011

M3 - 文章

AN - SCOPUS:79953674229

SN - 1561-8633

VL - 11

SP - 1011

EP - 1017

JO - Natural Hazards and Earth System Science

JF - Natural Hazards and Earth System Science

IS - 4

ER -

On the acoustic model of lithosphere-atmosphere-ionosphere coupling before earthquakes

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