SU1315917A1 - Method of studying earthquake precursors based on relative temporary variations of geoelectric resistance of medium - Google Patents

Description

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The invention relates to geophysics and more specifically to the study of the electrical resistivity of the Earth, in particular its changes over time, and can be used in the development of methods for predicting seismic events in areas with weakly expressed sedimentary layers.

The aim of the invention is to increase the likelihood and speed of detection of short-term sporadic variations in geo-electric resistance.

The method is implemented as follows.

The observation point is selected in the region with a weak sedimentary layer at a distance of about 0.1 of the length.

seismic wave in the crystalline basement from the estimated

the focal zone, the components of the Earth’s natural alternating magnetic field 11, Hj and I are taken at the selected observation point; determining and recording the ratio of the vertical component of the pulsations of the natural alternating field H of the earth to the horizontal component Hh; (And X) magnetic ratio h in the range of periods of 10-100 s and with a resolution of about 1 s.

The magnetic ratio h is a geoelectric parameter that is most sensitive to the presence of a horizontal inhomogeneity of the conductivity of the medium. A large time resolution with a resolution of 1 s is possible due to the use of natural geomagnetic pulsations and 1st in the range of periods T 10–100 s. This range includes, for example, PC 3 type pulsations with a period of 20-30 seconds, which are observed 10-14 hours a day. They correspond to a maximum frequency of occurrence at middle and low latitudes, to which seismically active zones are usually transferred. In addition, this range of periods is also characteristic of other types of pulsations (Pc 4, Pi 1, Ri 2)

Operating in the specified range makes it possible, after the implementation of a gliding physical filtering of the signal with the corresponding integration time, to obtain a continuous series of magnetic ratio values (with a resolution of 1 s), which, when the observation point is located on the crystalline basement (resistivity 10 Ohm-m)

we carry out a formation with (-- | - and girm) ..: -: feast. m at sufficiently clear depths (penetration depth 150 km for T 25 s).

The possibility of using the magnetic ratio h in the range of periods of 10-100 s as a prognostic parameter sensitive to changes in the depth distribution.

O conductivity, was revealed by calculating the field of a plane electromagnetic wave on the geoelectric model model, characteristic of seismically active zones.

5 The method can be implemented, for example, with the help of an autonomous variant of the diagnostic magnetovariational complex, which allows the production of sliding physical

0 filtering of the signal in a re al time scale with a given constant integration, which makes it possible to obtain continuous with discreteness with a number of values of the amplitude relations and. at the point of observation over the static geoelectrical structure, when measuring at a given frequency, the values of the indicated ratios are constant over time with

30 provides for the stability of the source of the primary geomagnetic field, which at middle and low latitudes performs quite well. Changes in these relationships are caused by changes in the geoelectric parameters of the environment, in particular, changes in the electrical resistivity of rocks during the development of the earthquake focus.

Claims (1)

40 claims The method of studying the precursors of earthquakes on the relative temporal changes of the geoelectric 45 of the medium in which the components of the natural alternating magnetic field of the Earth are received, characterized in that, in order to increase the probability and speed of detection of short-term sporadic variations of the geoelectric resistance, the observation point in the region with a weak sedimentary layer on 55 distances on the order of O, 1, the length of the seismic wave in the crystalline basement from the assumed focal zone, are determined and recorded at the selected observation point 313159174 ii i h (n | (.; 11 and G c тик л л 11) 1 component component in the range of pe1) iodor pool1, c, | cny natural variable 10-100 s and with discreteness of the order of milligrams of Pmt1111 C1 1 sec. Compiled by V.Popadko Editor I.Shulla Tehred M.Hodanich Proofreader A.Obruchar Order 2356/48 Circulation 730 Subscription VNIIPN USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4