About the journal
NAUKA I TEKHNOLOGICHESKIE RAZRABOTKI (SCIENCE AND TECHNOLOGICAL DEVELOPMENTS), ISSN: 2079-5165, eISSN: 2410-7948, DOI: 10.21455/std; https://elibrary.ru/title_about.asp?id=32295; http://std.ifz.ru/. The journal was founded in 1992.
HISTORY
OF FORMATION
OF THE SEISMOELECTRODYNAMICS
A.V. Guglielmi
Schmidt Institute of Physics of the Earth of the Russian Academy of Sciences, Moscow, Russia
e-mail: guglielmi@mail.ru
Highlights
– Sets out the history of the formation of seismoelectrodynamics as a scientific discipline
– The basic equation of seismoelectrodynamics is proposed
– Magnetic pulse excitation in the source of an earthquake is described
– Proposed a new method for detecting seismomagnetic waves
– An example of registration of seismomagnetic waves is given
Abstract. Seismoelectrodynamics is a theory of excitation in the earth's crust of an alternating electromagnetic field in the course propagation of seismic waves, and at ruptures of a continuity of rocks in the foci of earthquakes. The purpose of this paper is to tell at the first time the story of formation of the seismoelectrodynamics. The paper gives modern ideas on mechanoelectromagnetic transformations in the rocks, on the propagation of co-seismic electromagnetic oscillations, and on the generation of electromagnetic pulses in the rupture of rock in earthquake foci. A spectral-polarization method for separating seismomagnetic signals against a noise background is described. The principal importance of setting up the new observations for strengthening the experimental foundations of seismoelectrodynamics is emphasized.
Keywords: earthquakes, seismic waves, electromagnetic oscillations, mechanoelectromagnetic transformations
Cite this article as: Guglielmi A.V. History of formation of the seismoelectrodynamics, Nauka i Tekhnologicheskie Razrabotki (Science and Technological Developments), 2019, vol. 98, no. 1, pp. 5–20. [Special issue “Methodological aspects of the application of electromagnetic methods in geophysical research”]. [in Russian]. https://doi.org/10.21455/std2019.1-1
References
Alfven H. Cosmical electrodynamics, Oxford: University Press, 1950, 275 p.
Bauer L.A. Magnetograph records of earthquakes with special reference to the San Francisco earthquake of April. 18, 1906 II, Terr. Mag., 1906, vol. XI, pp. 135–144.
Breiner S. Piezomagnetic effect at the time of local earthquakes, Nature, 1964, vol. 202, no. 4934, pp. 790–791.
Brune J.N. Tectonic stress and the spectra of seismic shear waves from earthquakes, J. Geophys. Res., 1970, vol. 75, pp. 4997–5009.
Buchachenko A.L. Magnetoplasticity and the physics of earthquakes. Can a catastrophe be prevented? Physics-Uspekhi, 2014, vol. 57, no. 1, pp. 92–98. DOI: 10.3367/UFNe. 0184.201401e.0101.
Crews A., Futterman J. Geomagnetic micropulsations due to the motion of ocean waves, Geophys. Res., 1962, vol. 67, pp. 299–306.
Dobrovolsky I.P. Theory of tectonic earthquake preparation, Moscow: IFZ AN SSSR, 1985, 188 p. [in Russian].
Eleman F. The response of magnetic instruments to earthquake waves II, J. Geomag. Geoelectr., 1966, vol. 18, no. l, pp. 43–72.
Frenkel J.I. On the theory of seismic and seismoelectric phenomena in moist soil, Izv. USSR Academy of Sciences. Ser. geo and geophysis, 1944, vol. 8, no. 4, pp.134–149. [in Russian].
Guglielmi A.V. Excitation of electromagnetic field oscillations by elastic waves in a conducting body, Geomagnetizm and aeronovy. 1986, vol. 26, no. 3, pp. 467–470. [in Russian].
Guglielmi A.V. The Tolman-Stuart effect in the earth's crust, Physics of the Earth, 1992, no. 10, pp. 109–112. [in Russian].
Guglielmi A.V. Elastomagnetic waves in a porous medium, Physica Scripta, 1992, vol. 46, pp. 433–434.
Guglielmi A.V. The equation for the generation of seismomagnetic signals, Dokl. RAS, 1995, vol. 342, no. 3, pp. 390–392. [in Russian].
Guglielmi A.V., Levshenko V.T., Pokhotelov D.O. Comparative analysis of dynamic and quasistatic mechanisms for generating seismomagnetic signals, Physics of the Earth, 1996, no. 8, pp. 18–25. [in Russian].
Guglielmi A.V., Pokhotelov O.A. Geoelectromagnetic waves, IOP: Bristol and Philadelphia, 1996, 402 p.
Guglielmi A.V. Some problems in seismoelectrodynamics: A review, Atmospheric and Ionospheric Electromagnetic Phenomena Associated with Earthquakes, ed. M. Hayakawa. Tokyo: TERRAPUB, 1999, pp. 931–938.
Guglielmi A.V., Levshenko V.T., Ruban V.F. On the observation of seismoelectromagnetic signals, Physics of the Earth, 1999, no. 4, pp. 91–93. [in Russian].
Guglielmi A.V., Potapov A.S., Tsegmed B. On the excitation of magnetic signals by Love waves, Annals of Geophysics, 2004a, vol. 47, no. 1, pp. 171–177.
Guglielmi A., Potapov A., Tsegmed B. One mechanism for generation of the co-seismic electromagnetic oscillations. Physics and Chemistry of the Earth, 2004b, vol. 29, pp. 453–457.
Guglielmi A., Hayakawa M., Potapov A., Tsegmed B. Polarization method to detect the co-seismic magnetic oscillations, Physics and Chemistry of the Earth, 2006, vol. 31, pp. 299–304.
Guglielmi A.V. Ultra-low-frequency electromagnetic waves in the crust and magnetosphere of the Earth, UFN, 2007, vol. 177, no. 12, pp. 1257–1276. [in Russian].
Ivanov A.G. The effect of the electrization of earth layers when elastic waves pass through them, Dokl. USSR Academy of Sciences, 1939, vol. 24, no. 1, pp. 41–43. [in Russian].
Ivanov A.G. Seismoelectric effect of the second kind, Izv. USSR Academy of Sciences. Ser. Geophysis. and geogr., 1940, no. 5, pp. 699–727. [in Russian].
Iyemori Т., Kamei Т., Тапака Y., Takeda M., Hashimoto Т., Araki Т., Okamoto Т., Watanabe K., Sumitomo N., Oshiman N. Co-seismic geomagnetic variations observed at the 1995 Hyogoken-Nanbu earthquake, J. Geomag. Geoelectr., 1996, vol. 48, pp. 1059–1070.
Kalashnikov A.G. Possibilities of magnetometric methods in solving the issue of earthquake precursors, Transactions of Geophys. Institute, 1964, issue. 25 (152). pp. 162–180. [in Russian].
Kalashnikov A.G., Kapitsa S.P. Magnetic susceptibility of rocks at elastic stresses, Dokl. USSR Academy of Sciences, 1952, vol. 86, no. 3, pp. 521–523. [in Russian].
Kapitsa S.P. Magnetic properties of igneous rocks at mechanical stresses, Izv. USSR Academy of Sciences. Ser. Geophysis, 1955, no. 6, pp. 489–504. [in Russian].
Kasahara K. Earthquake mechanics, Moscow: Mir, 1985, 264 p. [in Russian].
Lanlau L.D., Lifshits E.M. Electrodynamics of continuous media, M.: Nauka, 1982. 220 p. [in Russian].
Martner S.T., Sparks N.R. The electroseismic effect, Geophysics, 1959, vol. 24, no. 2, pp. 297–308.
Mascart M. Sur les effets magnetiques des tremblements de terre, C. R. CLV, 1887, pp. 607–608.
Nagata T. Basic magnetic properties of rocks under the effect of mechanical stresses, Tectonophysics, 1970, vol. 9, no. 2-3, pp. 167–195.
Orlov A.P. Earthquakes and their relationships with other natural phenomena, Kazan, 1887, 170 p. [in Russian].
Parkhomenko E.I. The phenomena of electrification in rocks, Moscow: Nauka, 1968, 255 p. [in Russian].
Sgrigna V., Buzzi A., Conti L., Guglielmi A.V., Pokhotelov O.A. Electromagnetic signals produced by elastic waves in the Earth’s crust, Nuovo Cimento, 2004, vol. 27, C, no. 2, pp. 115–132.
Steinberg V.V. On the parameters of foci and the seismic effect of earthquakes, Physics of the Earth, 1983, no. 7, pp. 49–64. [in Russian].
Thompson R.R. The seismic-electric effect, Geophysics, 1936, vol. 1, pp. 327–335.
Thomson R.R. A note on the seismic-electric effect, Geophysics, 1939, vol. 4, no. 1, pp. 102–105.
Tsegmed B., Guglielmi A.V., Potapov A.S. Observation of seismomagnetic waves from strong earthquakes by the polarization method, Physics of the Earth, 2000, no. 12, pp. 41–50. [in Russian].
Warburton F., Caminiti R. The induced magnetic field of sea waves, J. Geophys. Res., 1964, vol. 69, pp. 4311–4318.
Weaver J.T. Magnetic variations associated with ocean waves and swell, J. Geophys. Res., 1965, vol. 70, pp. 1921–1929.
Zlotnicki J., Pozzi J.P., Cornet F.H. Investigation of induced magnetization variations caused by triaxial stresses, J. Geophys. Res., 1981, vol. 86, B, no. 12, pp. 11899–11909.
Zotov O.D., Lavrov I.P. On the relationship of the Earth's seismicity with the parameters of the interplanetary magnetic field, Materials of the scientific-practical conference “Mid-latitude geophysical observatory observations” dedicated to the 100th anniversary of Valeria Alekseevna Troitskaya and the 60th anniversary of the Borok Geophysical Observatory (Borok, 16 October 19, 2017) / Ans. ed. S.V. Anisimov. Yaroslavl: Filigree, 2017, pp. 25–26. [in Russian].
About the author
GUGLIELMI Anatol Vladimirovich – Prof., Dr. Sci. (Phys.-Math.), Chief Researcher, Schmidt Institute of Physics of the Earth RAS. 123242, Moscow, ul. Bolshaya Gruzinskaya 10, stroenie 1. Phone: +7(495) 582-99-71. E-mail: guglielmi@mail.ru