Sv. Ershov et al., Electromagnetic signals of a seismic excitation of geolocal structures beneath a sea bottom, PHYS CH P C, 26(10-12), 2001, pp. 761-768
Citations number
9
Categorie Soggetti
Earth Sciences
Journal title
PHYSICS AND CHEMISTRY OF THE EARTH PART C-SOLAR-TERRESTIAL AND PLANETARY SCIENCE
We formulate a mathematical model of generation and propagation of seismo-e
lectromagnetic (EM) signals in the basin of a marginal sea with an arbitrar
y 2D geological structure of the bottom, including the transfer of seismic
and EM energy from lithosphere to hydrosphere and EM emission into atmosphe
re. In case of a model basin which is a 2D scheme of the central part of th
e basin of the Sea of Japan, the first magnetic signal is generated in the
conductive (0.02 S/m) upper mantle layer M where weak seismic displacements
(SD) are supposed to arise at the moment t = 0. The amplitude and duration
of a SD were of order of a few centimetres and a few seconds and differ in
different simulations. The primary signal from M with the amplitude about
50 pT reaches for the sea bottom at the moment t = 3.5 sec. Magnetic diffus
ion into the conductive sea water is too slow and thus EM signal in atmosph
ere originates due to geomagnetic field induction in the vertically moving
water column Q(a) located above the area of the initial contact of the seis
mic P wave (from M) with the sea bottom. Because of the structure of the se
ismo-hydrodynamic field and the EM field conjugation conditions at the sea-
atmosphere interface the horizontal component B-2 of the seismo-hydrodynami
c magnetic field is being generated, at first, in a thin water layer under
the top of Q(a) at the sea surface, whereas the vertical component B-1 is b
eing generated everywhere in Q(a). After the spreading of the magnetic sign
als, B-1 is up to 250 and 150 pT at the sea surface and at the height of 10
km respectively at t = 10 sec Magnetic signals are represented by oscillat
ions of the same low frequency range (0.1 to 10 Hz) as the SD. The computed
long hydrodynamic wave's amplitude, caused by the SD, is not more then 20
cm. Therefore the waves transferring seismic energy can be discovered far f
rom the coast by low-frequency EM observations. (C) 2001 Elsevier Science L
td. All rights reserved.