Archive/Method for Identifying Seismokinetic Effects in Earth’s Magnetic Field Measurements
Method for Identifying Seismokinetic Effects in Earth’s Magnetic Field Measurements
Ivan Vassilyev, Vladimir Saveliev, Zhassulan Mendakulov et al.
3. Juli 2026
en

Abstract

Analysis of variations in the components of the Earth’s magnetic field, recorded at the magnetic observatory of the Institute of Ionosphere (Almaty, Kazakhstan) during the earthquakes of 22 January 2024 and 4 March 2024, showed that these fluctuations were not related to intrinsic variations in the magnetic field itself, but rather to mechanical oscillations of the magnetometer together with its support. Evidence supporting the seismokinetic origin of the variations in the vector magnetometer was the discrepancy between the total magnetic field measured by the absolute magnetometer and the total magnetic field calculated from the vector magnetometer readings. Equations were derived that relate variations in the components of the magnetic field to the tilt angles of the sensor, enabling the determination of the direction of arrival of seismic shock waves. Azimuths of earthquake epicenters were calculated from oscillations observed in magnetogram records for several events, and these were compared with azimuths obtained from a network of seismic stations. It is shown that, in order to improve the accuracy of geomagnetic field measurements—required for the study of seismoelectric and seismomagnetic phenomena, as well as for identifying earthquake precursors—the design of magnetic observatories should be supplemented with an inclinometer to enable correction of vector magnetometer measurement results.

IPC Classification

G06H04B60H01

Keywords

identifyingseismokineticeffectsearthmagneticfieldmeasurementssensorsanalysisvariationscomponentsrecordedobservatoryinstituteionospherealmatykazakhstanduringearthquakesjanuary2024marchshowedthese
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